Recovery Strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Canada - 2015 - Proposed

Environment Canada. 2015. Recovery Strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Canada [Proposed]. Species at Risk Act Recovery Strategy Series. Environment Canada, Ottawa. 26 pp. + Annexes.

For copies of the recovery strategy, or for additional information on species at risk, including COSEWIC Status Reports, residence descriptions, action plans, and other related recovery documents, please visit the Species at Risk Public Registry.

Cover illustration: ©Jennifer McCarter, the Nature Conservancy of Canada

Également disponible en français sous le titre
« Programme de rétablissement de la salamandre de Jefferson (Ambystoma jeffersonianum) au Canada - 2015 - Proposition »

© Her Majesty the Queen in Right of Canada, represented by the Minister of the Environment, 2015. All rights reserved.
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Content (excluding the illustrations) may be used without permission, with appropriate credit to the source.

Under the Accord for the Protection of Species at Risk (1996), the federal, provincial, and territorial governments agreed to work together on legislation, programs, and policies to protect wildlife species at risk throughout Canada.

In the spirit of cooperation of the Accord, the Government of Ontario has given permission to the Government of Canada to adopt the Recovery Strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Ontario (Part 2) under Section 44 of the Species at Risk Act. Environment Canada has included an addition (Part 1) which completes the SARA requirements for this recovery strategy.

Environment Canada is adopting the provincial recovery strategy with the exception of section 2, Recovery. In place of section 2, Environment Canada is establishing a population and distribution objective and performance indicators, is adopting the government-led and government-supported actions of the Jefferson Salamander Ontario Government Response StatementFootnote1.1 (Part 3) as the population and distribution objective and the broad strategies and general approaches to meet the population and distribution objective; and is adopting the habitat regulated under Ontario's Endangered Species Act, 2007 as critical habitat for the Jefferson Salamander.

The federal recovery strategy for the Jefferson Salamander in Canada consists of three parts:

Part 1 – Federal Addition to the Recovery Strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Ontario, prepared by Environment Canada.

Part 2 - Recovery Strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Ontario, prepared by Jefferson Salamander Recovery Team for the Ontario Ministry of Natural ResourcesFootnote2.

Part 3 – Jefferson Salamander: Ontario Government Response Statement, prepared by the Ontario Ministry of Natural Resources.



The federal, provincial, and territorial government signatories under the Accord for the Protection of Species at Risk (1996) agreed to establish complementary legislation and programs that provide for effective protection of species at risk throughout Canada. Under the Species at Risk Act (S.C. 2002, c.29) (SARA), the federal competent ministers are responsible for the preparation of recovery strategies for listed Extirpated, Endangered, and Threatened species and are required to report on progress within five years.

The Minister of the Environment is the competent minister for the recovery of the Jefferson Salamander and has prepared the federal component of this recovery strategy (Part 1), as per section 37 of SARA. SARA section 44 allows the Minister to adopt all or part of an existing plan for the species if it meets the requirements under SARA for content (sub-sections 41(1) or (2)). The Ontario Ministry of Natural Resources (now the Ontario Ministry of Natural Resources and Forestry) led the development of the attached recovery strategy for the Jefferson Salamander (Part 2) in cooperation with Environment Canada.

Success in the recovery of this species depends on the commitment and cooperation of many different constituencies that will be involved in implementing the directions set out in this strategy and will not be achieved by Environment Canada, or any other jurisdiction alone. All Canadians are invited to join in supporting and implementing this strategy for the benefit of the Jefferson Salamander and Canadian society as a whole.

This recovery strategy will be followed by one or more action plans that will provide information on recovery measures to be taken by Environment Canada and other jurisdictions and/or organizations involved in the conservation of the species. Implementation of this strategy is subject to appropriations, priorities, and budgetary constraints of the participating jurisdictions and organizations.

The federal addition was prepared by Jennie Pearce (Pearce & Associates Ecological Research). Additional preparation and review of the document was completed by Rachel deCatanzaro, Angela McConnell, and Allison Foran (Environment Canada, Canadian Wildlife Service – Ontario). This federal addition benefited from input, review, and suggestions from the following individuals and organizations: Krista Holmes, Madeline Austen, Lesley Dunn, and Elizabeth Rezek (Environment Canada, Canadian Wildlife Service – Ontario); Paul Johanson (Environment Canada – Canadian Wildlife Service – National Capital Region) and Joe Crowley and Jay Fitzsimmons (Ontario Ministry of Natural Resources and Forestry). Information contributed by Talena Kraus (Artemis Eco-works), Kari Van Allen and Angela Darwin (Environment Canada, Canadian Wildlife Service – Ontario) and Barbara Slezak (formerly Environment Canada, Canadian Wildlife Service-Ontario) is also gratefully acknowledged.

Acknowledgement and thanks is given to all other parties that provided advice and input used to help inform the development of this recovery strategy including various Aboriginal organizations and individuals, individual citizens, and stakeholders who provided input and/or participated in consultation meetings.

The following sections have been included to address specific requirements of the federal Species at Risk Act (SARA) that are not addressed in the Province of Ontario's Recovery Strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Ontario (Part 2) and to provide updated or additional information.

Under SARA, there are specific requirements and processes set out regarding the protection of critical habitat. Therefore, statements in the provincial recovery strategy referring to protection of the species' habitat may not directly correspond to federal requirements, and are not being adopted by Environment Canada as part of the federal recovery strategy. Whether particular measures or actions will result in protection of critical habitat under SARA will be assessed following publication of the final federal recovery strategy.

The Jefferson Salamander is listed as EndangeredFootnote3 under the Ontario Endangered Species Act, 2007 (ESA). and is currently listed as ThreatenedFootnote4 on Schedule 1 of the federal SARA.

Globally, the Jefferson Salamanderis ranked Apparently SecureFootnote5(G4) (NatureServe 2012a). At the national scale, it is ranked as ImperiledFootnote6 N2) in Canada and Apparently Secure (N4) in the United States. At the sub-national level, it is ranked as Imperiled (S2) in Ontario, and Imperiled to Apparently Secure across its range in the United States (Appendix A).

In Canada, the species only occurs in Ontario. The Ontario population of the Jefferson Salamander occurs at the northern limit of the species' range in North America. As of October 2008, there were an estimated 328 known breeding ponds representing approximately 27 geographically discrete populations within the province. The Canadian population of the Jefferson Salamander probably constitutes between one and three percent of the species' global distribution (Jefferson Salamander Recovery Team 2010). The area of occupancyFootnote7 of the Jefferson Salamander in Canada has been estimated to be around 196 km2 (COSEWIC 2010).

Based on the following four criteria outlined in the draft SARA Policies (Government of Canada 2009), there are unknowns regarding the feasibility of recovery of the Jefferson Salamander. In keeping with the precautionary principle, a full recovery strategy has been prepared as would be done when recovery is determined to be feasible

  1. Individuals of the wildlife species that are capable of reproduction are available now or in the foreseeable future to sustain the population or improve its abundance.

    Yes. As of October 2008, Jefferson Salamanders had been confirmed breeding (in at least one year since 1998) at approximately 328 breeding ponds in Ontario, representing approximately 27 geographically discrete populations (Jefferson Salamander Recovery Team 2010). The total number of Jefferson Salamanders in Ontario is unknown, but COSEWIC (2010) estimated that there may be fewer than 2,500 adults.

  2. Sufficient suitable habitat is available to support the species or could be made available through habitat management or restoration.

    Unknown. Within the species' current range, suitable habitat exists, but is highly fragmented and nearby development activities may be causing habitat degradation. The availability of suitable habitat (both terrestrial and breeding ponds) is recognized as a major limiting factor for the species (COSEWIC 2010; Jefferson Salamander Recovery Team 2010). Although little information on population trends is available, annual observations for several extant populations have documented a severe decline in the number of egg masses observed, possibly due to habitat degradation at these extant populations.

  3. The primary threats to the species or its habitat (including threats outside Canada) can be avoided or mitigated.

    Unknown. Activities associated with urbanization, aggregate extraction and other resource developments pose the most significant threat to the Jefferson Salamander. These activities can result in the direct loss, degradation or fragmentation of habitat (e.g., through loss of natural cover), as well as indirect degradation or loss of breeding habitat through alterations to the hydrologic regime (water table, groundwater and surface water flows, wetland hydroperiod, etc.). In addition, roads may threaten Jefferson Salamanders as some roads present a barrier to dispersal and may result in mortality of individuals from vehicles. The effects of these threats may be cumulative. Threats to each extant population have not been quantified or monitored, and the effectiveness of mitigation efforts is currently unknown (Jefferson Salamander Recovery Team 2010). While it may not be possible to reverse some of the effects of existing or past developments, it is expected that with further investigation into both direct and indirect threats to Jefferson Salamander habitat posed by development (including an examination of cause-effect relationships) and the relative severity of threats to populations, threats from development activities and roads can be reduced to some degree through land management and stewardship actions.

  4. Recovery techniques exist to achieve the population and distribution objectives or can be expected to be developed within a reasonable timeframe.

    Yes. The population and distribution objective consists of maintaining or increasing the species' area of occupancy within its existing Ontario range. Research is required to investigate the relative severity of direct and indirect threats to individual populations of Jefferson Salamander (Jefferson Salamander Recovery Team 2010) and identify actions to recover populations. While there may be challenges associated with their implementation, land management and stewardship techniques to achieve recovery of the species – such as land use planning, wetland creation/ restoration, and techniques to mitigate road mortality – do exist.

The provincial Recovery Strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Ontario contains the following recovery goal:

The Government Response Statement for the Government of Ontario lists the following goal for the recovery of the Jefferson Salamander in Ontario:

Environment Canada supports the provincial recovery goal to allow for the long-term persistence and expansion of the Jefferson Salamander in Ontario. To meet the requirements and processes set out in SARA, Environment Canada has refined this recovery goal into a population and distribution objective for the species. The population and distribution objective established by Environment Canada for the Jefferson Salamander is to:

The government-led and government-supported actions table from the Jefferson Salamander Ontario Government Response Statement (Part 3) are adopted as the broad strategies and general approaches to meet the population and distribution objective. Environment Canada is not adopting the approaches identified in section 2 of the Recovery Strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Ontario (Part 2).

Section 41(1)(c) of SARA requires that recovery strategies include an identification of the species' critical habitat, to the extent possible, as well as examples of activities that are likely to result in its destruction. Under SARA, critical habitat is "the habitat that is necessary for the survival or recovery of a listed wildlife species and that is identified as the species' critical habitat in the recovery strategy or in an action plan for the species".

Identification of critical habitat is not a component of the provincial recovery strategy under the Province of Ontario's ESA. However, following the completion of the provincial recovery strategy for the Jefferson Salamander, a provincial habitat regulation was developed and came into force February 18, 2010. A habitat regulation is a legal instrument that prescribes an area that will be protectedFootnote9 as the habitat of this species by the Province of Ontario. The habitat regulation identifies the geographic area within which the habitat for the species is prescribed and the regulation may apply and explains how the boundaries of regulated habitat are determined (based on biophysical and other attributes). The regulation is dynamic and automatically in effect whenever the description(s) of the regulation are met.

Environment Canada adopts the description of the Jefferson Salamander habitat under section 28 of Ontario Regulation 242/08Footnote10 made under the provincial ESA as the critical habitat in this federal recovery strategy. The area defined under Ontario's habitat regulation contains the biophysical attributes required by the Jefferson Salamander to carry out its life processes. To meet specific requirements of SARA, the biophysical attributes of critical habitat are provided below.

The areas prescribed under Ontario Regulation 242/08 – Jefferson Salamander habitat are described as follows:

The habitat for the Jefferson Salamander is protected under the ESA until it has been demonstrated that Jefferson Salamander and jeffersonianum-dominated polyploids have been absent for a period of at least five years. Terrestrial habitat includes all of the areas and features described above that extend radially 300 m from the edge of the breeding pond. The 300 m distance is based on data from telemetry studies (OMNR 2008 unpublished data) as the habitat area required to support 95% of the adult population for each breeding location. The 1 km distance used to identify dispersal corridors is based on the maximum migratory distance of adults from the breeding pond into surrounding habitat (Faccio 2003; Semlitsch 1998; OMNR 2008 unpublished data).

While jeffersonianum-dominated polyploids will not be protected under the ESA or SARA, they are included in the regulation as surrogates for pure Jefferson Salamanders. The presence of jeffersonianum-dominated polyploids indicates that a pure breeding Jefferson Salamander is present to act as a sperm donor (Bogart and Klemens 1997, 2008). Furthermore, jeffersonianum-dominated polyploids use the same habitats as pure Jefferson Salamanders and, therefore, a jeffersonianum-dominated polyploid associated with a specific habitat (e.g., breeding pond) provides a good indication that pure Jefferson Salamanders (which are very rare and difficult to find) also use that habitat.

The biophysical attributes of critical habitat include the characteristics described below.

Through this recovery strategy, the areas prescribed as habitat for the Jefferson Salamander under section 28 of Ontario Regulation 242/08 become critical habitat identified under SARA at those locations. Since the regulation is dynamic and automatically in effect whenever the conditions described in the regulation are met, if any new locations of the Jefferson Salamander (or Ambystoma jeffersonianum-dominated polyploids) are confirmed within the geographic areas listed under subsection (1) of the regulation (see Figure 1), the habitat regulation under the ESA applies. However, these new locations would only become critical habitat once identified in an updated recovery strategy or a subsequent action plan.

In applying the critical habitat criteria above to the best available data (as of April 2014), critical habitat is identified for all known locations of Jefferson Salamander (or Ambystoma jeffersonianum-dominated polyploids) in Canada, totalling up to 91,080 haFootnote13 (Figure 2; see also Table 1). At this time, breeding ponds that provide the basis for delineating critical habitat are represented using available wetland habitat mapping. Where breeding ponds that support Jefferson Salamander are not known (or not available in existing wetland habitat mapping), a generalized area (represented by a radial distance around an observation record (300 m, and 1 km where appropriate; see habitat regulation)) is used to represent the habitat and direct recovery and protection activities until information allowing identification of more detailed critical habitat boundaries is obtained. Because small, temporal or ephemeral features are not well captured through existing land classification mapping, especially where field verification has not taken place, precaution should be taken when biophysical attributes of suitable habitat are represented by available thematic data. The critical habitat identified is considered sufficient to meet the population and distribution objective for the Jefferson Salamander.

Critical habitat for the Jefferson Salamander is made up of core areas and dispersal corridors. Critical habitat core areas are comprised of the breeding ponds (i.e., the areas described in 28(1)(i) and 28(1)(iii) of the Ontario Regulation 242/08), as well as the areas within 300 m of occupied breeding ponds that provide suitable conditions for foraging, dispersal, migration or hibernation (i.e., the areas described in 28(1)(ii) of the Ontario Regulation 242/08). Critical habitat dispersal corridors consist of the habitats that connect core areas and provide suitable conditions for dispersal (i.e., the areas described in 28(1)(iv) of the Ontario Regulation 242/08).

Human-created features (e.g., old farm ponds and dug ponds) are included in the identification of critical habitat unless there is evidence that Jefferson Salamander or jeffersonianum-dominated polyploids have been absent for a period of at least five years. Newly created artificial habitat (i.e., created breeding ponds) will not be included in the identification of critical habitat until there is evidence of use. In addition, the following features are not considered suitable (do not meet the biophysical attributes described above) and are not part of critical habitat: existing houses, buildings, structures, quarries, and other pre-existing industrial land uses; major roads; and open areas which do not directly separate breeding ponds from forested areas.

Critical habitat for the Jefferson Salamander is presented using a 10 x 10 km UTM grid. This 10 x 10 km UTM grid is part of a standardized grid system that indicates the general geographic areas containing critical habitat, which can be used for land use planning and/or environmental assessment purposes, and is a scale appropriate to reduce risks to the Jefferson Salamander and its habitat. The areas of critical habitat within each grid square occur where the description of critical habitat is met. More detailed information on regulated habitat may be requested on a need-to-know-basis from the Ontario Ministry of Natural Resources and Forestry. More detailed information on critical habitat to support protection of the species and its habitat may be requested on a need-to-know basis by contacting Environment Canada – Canadian Wildlife Service at Recovery Planning - Environment Canada.

Figure 1. The geographic areas within which the habitat regulation for the Jefferson Salamander may apply, if the habitat meets the criteria described in section 28 of Ontario Regulation 242/08 under the provincial ESA.
Map - See long description below figure 1
Long description for Figure 1
Figure 2. Grid squares that contain critical habitat for the Jefferson Salamander in Canada. Critical habitat for the Jefferson Salamander occurs within these 10 x 10 km standardized UTM grid squares (red hatched outline), where the description of critical habitat is met.
Grid - See long description below figure 2
Long description for Figure 2
Table 1. Grid squares that contain critical habitat for the Jefferson Salamander in Canada. Critical habitat for the Jefferson Salamander occurs within these 10 x 10 km standardized UTM grid squares where the description of critical habitat is met.
10 x 10 km Standardized UTM Grid Square IDNoteaof Table 1 UTM Grid Square CoordinatesNotebof Table 1a
Easting
UTM Grid Square CoordinatesNotebof Table 1b
Northing
Land TenureNotecof Table 1
17MH82 480000 4720000 Other Federal Land and Non-federal Land
17NH13 510000 4730000 Non-federal Land
17NH22 520000 4720000 Non-federal Land
17NH23 520000 4730000 Non-federal Land
17NH31 530000 4710000 Federal Protected Area - Big Creek National Wildlife Area and Non-federal Land
17NH32 530000 4720000 Non-federal Land
17NH41 540000 4710000 Federal Protected Area - Big Creek National Wildlife Area and Non-federal Land
17NH42 540000 4720000 Non-federal Land
17NH43 540000 4730000 Non-federal Land
17NH49 540000 4790000 Non-federal Land
17NH51 550000 4710000 Federal Protected Area - Long Point National Wildlife Area and Non-federal Land
17NH52 550000 4720000 Non-federal Land
17NH53 550000 4730000 Non-federal Land
17NH58 550000 4780000 Non-federal Land
17NH59 550000 4790000 Non-federal Land
17NH60 560000 4700000 Federal Protected Area - Long Point National Wildlife Area and Non-federal Land
17NH61 560000 4710000 Federal Protected Area - Long Point National Wildlife Area and Non-federal Land
17NH62 560000 4720000 Non-federal Land
17NH68 560000 4780000 Non-federal Land
17NH69 560000 4790000 Non-federal Land
17NH70 570000 4700000 Federal Protected Area - Long Point National Wildlife Area and Non-federal Land
17NH71 570000 4710000 Federal Protected Area - Long Point National Wildlife Area and Non-federal Land
17NH76 570000 4760000 Other Federal Land and Non-federal Land
17NH77 570000 4770000 Other Federal Land and Non-federal Land
17NH78 570000 4780000 Other Federal Land and Non-federal Land
17NH79 570000 4790000 Non-federal Land
17NH85 580000 4750000 Non-federal Land
17NH86 580000 4760000 Other Federal Land and Non-federal Land
17NH87 580000 4770000 Other Federal Land and Non-federal Land
17NH88 580000 4780000 Other Federal Land and Non-federal Land
17NH89 580000 4790000 Other Federal Land and Non-federal Land
17NH95 590000 4750000 Other Federal Land and Non-federal Land
17NH96 590000 4760000 Non-federal Land
17NH98 590000 4780000 Non-federal Land
17NH99 590000 4790000 Other Federal Land and Non-federal Land
17NJ21 520000 4810000 Non-federal Land
17NJ30 530000 4800000 Non-federal Land
17NJ31 530000 4810000 Non-federal Land
17NJ40 540000 4800000 Other Federal Land and Non-federal Land
17NJ50 550000 4800000 Other Federal Land and Non-federal Land
17NJ60 560000 4800000 Non-federal Land
17NJ61 560000 4810000 Non-federal Land
17NJ71 570000 4810000 Non-federal Land
17NJ72 570000 4820000 Non-federal Land
17NJ73 570000 4830000 Other Federal Land and Non-federal Land
17NJ75 570000 4850000 Non-federal Land
17NJ76 570000 4860000 Non-federal Land
17NJ77 570000 4870000 Non-federal Land
17NJ80 580000 4800000 Non-federal Land
17NJ81 580000 4810000 Non-federal Land
17NJ82 580000 4820000 Non-federal Land
17NJ83 580000 4830000 Other Federal Land and Non-federal Land
17NJ84 580000 4840000 Non-federal Land
17NJ85 580000 4850000 Non-federal Land
17NJ90 590000 4800000 Other Federal Land and Non-federal Land
17NJ91 590000 4810000 Non-federal Land
17NJ92 590000 4820000 Non-federal Land
17NK31 530000 4910000 Non-federal Land
17NK41 540000 4910000 Non-federal Land
17NK42 540000 4920000 Non-federal Land
17PH07 600000 4770000 Non-federal Land
17PH08 600000 4780000 Non-federal Land
17PH15 610000 4750000 Other Federal Land and Non-federal Land
17PH16 610000 4760000 Non-federal Land
17PH17 610000 4770000 Non-federal Land
17PH18 610000 4780000 Other Federal Land and Non-federal Land
17PH28 620000 4780000 Non-federal Land
17PH37 630000 4770000 Non-federal Land
17PH46 640000 4760000 Other Federal Land and Non-federal Land
17PH47 640000 4770000 Other Federal Land and Non-federal Land
17PH55 650000 4750000 Non-federal Land
17PH56 650000 4760000 Non-federal Land
17PH57 650000 4770000 Other Federal Land and Non-federal Land
17PJ01 600000 4810000 Other Federal Land and Non-federal Land
17PJ02 600000 4820000 Non-federal Land
17PJ03 600000 4830000 Other Federal Land and Non-federal Land
17PJ06 600000 4860000 Non-federal Land
17PJ12 610000 4820000 Other Federal Land and Non-federal Land
17PJ15 610000 4850000 Non-federal Land
17PJ16 610000 4860000 Other Federal Land and Non-federal Land
17PJ26 620000 4860000 Non-federal Land
17PJ28 620000 4880000 Non-federal Land
17PJ38 630000 4880000 Non-federal Land
Long description for Table 1 - Part 1

Understanding what constitutes destruction of critical habitat is necessary for the protection and management of critical habitat. Destruction is determined on a case by case basis. Destruction would result if part of the critical habitat was degraded, either permanently or temporarily, such that it would not serve its function when needed by the species. Destruction may result from a single activity or multiple activities at one point in time or from the cumulative effects of one or more activities over time (Government of Canada 2009).

Destruction of critical habitat for the Jefferson Salamander can occur at a variety of scales and in both aquatic and terrestrial habitats. It may occur from an activity taking place either within or outside of the critical habitat boundary and it may occur in any season of the year. Within the critical habitat boundary, activities may affect core habitat areas which include breeding ponds and the areas within 300 m of occupied breeding ponds that provide suitable conditions for foraging, dispersal, migration or hibernation (i.e., the areas described in 28 (1) (i-iii) of the Ontario Regulation 242/08). Activities may also affect dispersal corridors that connect core areas (i.e., the areas described in 28 (1) (iv) of the Ontario Regulation 242/08). Within dispersal corridors it is most important to maintain habitat permeability (movement through connective habitat to access adjacent core areas) and, as a result, certain activities that are likely to cause destruction in core areas may not cause destruction in corridors so long as sufficient habitat permeability is maintained. Activities taking place outside of the critical habitat boundary are also less likely to cause destruction of critical habitat than those taking place within the critical habitat boundary.

Activities described in Table 2 are examples of those likely to cause destruction of critical habitat for the species; however, destructive activities are not necessarily limited to those listed.

Table 2. Activities Likely to Destroy Critical Habitat of the Jefferson Salamander
Description of Activity Description of Effect in Relation to Function Loss Where activity may cause destruction of critical habitat -
Within critical habitat boundary -
Core
Where activity may cause destruction of critical habitat -
Within critical habitat boundary -
Dispersal corridor
Where activity may cause destruction of critical habitat -
Outside critical habitat boundary
Details of effect
Development activities (e.g., tree harvesting, site clearing and grading, stormwater management, surface paving, etc.) or other activities that alter site cover and/or hydrology

Tree harvesting, site clearing (e.g., for urban development, aggregate extraction, or resource development) and other activities that result in the net removal, disturbance or destruction of cover objects (e.g., rocks, logs or debris) may result in the direct loss of suitable terrestrial microhabitat characteristics which the species relies on for foraging, for maintaining hydration, for protective cover, and for overwintering.

Site clearing and grading may alter the topography and the hydrology (drainage patterns, water table, groundwater flow) of the site. Stormwater management and increases in impervious surfaces may also alter site hydrology. These hydrologic changes may destroy or degrade breeding and/or foraging habitat by modifying or disrupting water flow, water balance, wetland hydroperiodsFootnote1, wetland function or soil moisture.

Large-scale developments (e.g., urbanization), may remove canopy, alter watercourses for snowmelt and runoff, and/or draw down the water table and therefore may result in the reduction of vernal pond "envelopes" and buffer zones or premature drying of ponds, and thereby destroy, damage or fragment habitat.

X X X

Activities within critical habitat core areas that alter cover or the hydrologic regime are highly likely to result in direct destruction at any time of the year because they would degrade habitat required by all life stages for survival. If grading or other activities that alter water flows occur outside of critical habitat or in corridors, it could result in the indirect destruction of critical habitat by altering water regimes within critical habitat thereby reducing or eliminating breeding habitat.

Large-scale developments within or adjacent to critical habitat may cause destruction of critical habitat at any time of year. If it occurs within critical habitat core areas, it is highly likely to cause destruction; if it occurs in corridors or adjacent to critical habitat, effects would most likely be cumulative and whether or not they result in destruction would likely depend on the extent and location of the development.

Erecting barriers (e.g. silt fences or drainage ditches) Temporary and permanent structures including silt fences erected during construction, or drainage ditches, create physical barriers within the habitat that may hinder or prevent migration of salamanders, thereby preventing them from accessing habitats required to carry out life processes (e.g., breeding, foraging, overwintering) or to migrate among sites. X X -

This activity must occur within the bounds of critical habitat to cause its destruction, and the likelihood of it causing destruction would depend in large part on the configuration of the barrier and the time of year that it is in place.

If this activity occurs within critical habitat core areas, it could cause destruction if it prevents access to areas required by the Jefferson Salamander at one or more life stages. If this activity were to occur in early spring (typically late March to early April) it could prevent or impair breeding, or prevent or impair adults from returning to foraging habitat. If this activity were to occur in late summer/early fall (typically mid-July to mid-September), this activity could prevent or impede dispersal by juveniles from breeding habitat to foraging and overwintering habitat.

If this activity occurs within critical habitat corridors, it may cause destruction if it eliminates the function of the corridor.

Building or upgrading roads

If it occurs within critical habitat, this activity could result in the loss or degradation of suitable habitat for all life stages through removal of vegetative cover and conversion to impermeable surfaces (see above). The construction or upgrading of roads can also lead to fragmentation of critical habitat by forming physical barriers that impede dispersal (e.g., steep roadside slopes, large roads with concrete lane dividers), thereby preventing Jefferson Salamander from accessing habitats required to carry out life processes or to migrate among sites, and by increasing mortality (e.g., greater risk of desiccation, vehicle collision and predation).

In addition, if this activity occurs within or near critical habitat, chemicals and pollutants from roads (e.g., salt, metals, products of combustion) can enter breeding ponds, degrade habitat and cause toxic effects.

X X X

The effects of this activity can be both direct (e.g., loss of cover, creation of a barrier that fragments habitat) and indirect or cumulative (e.g., pollution). If the effects of the activity are permanent (e.g., paving natural habitat), the activity is likely to cause destruction of habitat if undertaken at any time of the year. However, if activities do not have lasting effects (e.g., upgrading of a road that does not result in further reducing habitat permeability or increasing pollution), it may only cause destruction if conducted when the species is undertaking terrestrial movements (typically late March to early April; and mid-July to mid-September).

This activity is highly likely to cause destruction if it occurs within critical habitat core areas, because it would reduce access to areas required by the Jefferson Salamander at one or more life stages. If this activity occurs within critical habitat corridors, it is also highly likely to cause destruction by eliminating the function of the corridor. If this activity occurs outside of critical habitat, it may result in the indirect destruction of critical habitat through the introduction of chemical pollution (e.g., salt) into wetlands within critical habitat.

Operation of heavy equipment (e.g., forestry equipment) or heavy use by ATVs The operation of heavy equipment and heavy use of ATVs (e.g., repeated travel along a path) to the extent that the activity results in the loss of vegetation or microhabitat features, alteration of vernal pool hydrology, or filling, sedimentation or pollution of vernal pools, could destroy, damage or isolate/fragment breeding or terrestrial habitat. X - - If this activity occurs within critical habitat core areas at any time of the year, with the exception of winter months when the ground is snow covered and frozen, it is highly likely to have direct effects on critical habitat.
Addition of carnivorous fish to breeding ponds Addition of carnivorous fish to ponds would destroy breeding habitat because fish prey upon all life stages of salamanders and would therefore reduce the survival and reproductive success of Jefferson Salamander individuals. X - - If this activity occurs within critical habitat core areas, at any time of the year, it is highly likely to result in its destruction because it would directly eliminate breeding habitat.
Long description for Table 2 - Part 1

The performance indicator presented below provides a way to define and measure progress toward achieving the population and distribution objective. Every five years, success of recovery strategy implementation will be measured against the following performance indicator:

One or more action plans will be completed and posted on the Species at Risk Public Registry for the Jefferson Salamander, by December 31, 2021.

A strategic environmental assessment (SEA) is conducted on all SARA recovery planning documents, in accordance with the Cabinet Directive on the Environmental Assessment of Policy, Plan and Program ProposalsFootnote14. The purpose of a SEA is to incorporate environmental considerations into the development of public policies, plans, and program proposals to support environmentally sound decision-making and to evaluate whether the outcomes of a recovery planning document could affect any component of the environment or any of the Federal Sustainable Development Strategy's (FSDS)Footnote15 goals and targets.

Recovery planning is intended to benefit species at risk and biodiversity in general. However, it is recognized that strategies may also inadvertently lead to environmental effects beyond the intended benefits. The planning process based on national guidelines directly incorporates consideration of all environmental effects, with a particular focus on possible impacts upon non-target species or habitats. The results of the SEA are incorporated directly into the strategy itself, but are also summarized below in this statement.

This federal recovery strategy will clearly benefit the environment by promoting the recovery of the Jefferson Salamander and by protecting and enhancing breeding habitat for other co-occurring amphibian species. Government-supported strategies presented in the Government Response Statement will have a positive impact on other wildlife species occupying Carolinian forest, as well as protecting the remnant forest itself. Efforts to protect habitat, to identify potential approaches to mitigate environmental and cultural stressors, and to understand the sensitivity of ponds and vernal pools to changes in the quantity and quality of water will inevitably benefit species found in association with the Jefferson Salamander. The potential for the strategy to inadvertently lead to adverse effects on other species was considered and no adverse effects from potential mitigation activities were identified.

The SEA concluded that this strategy will clearly benefit the environment and will not entail any significant adverse effects.

Rank Definitions (NatureServe 2012b)

Table of Appendix A: Subnational Conservation Ranks of Jefferson Salamander (Ambystoma jeffersonianum) in Canada and the United States
Jefferson Salamander (Ambystoma jeffersonianum)
S-rank
Jefferson Salamander (Ambystoma jeffersonianum)
State/Province
S1 (Imperilled) Ontario, Illinois, Vermont
S2S3 (Imperiled-Vulnerable) Massachusetts, New Hampshire
S3 (Vulnerable) Connecticut, Maryland, New Jersey, West Virginia
S3S4 (Vulnerable-Apparently Secure) Pennsylvania
S4 (Apparently Secure) Indiana, Kentucky, New York, Virginia
SNR (Unranked) Ohio



This series presents the collection of recovery strategies that are prepared or adopted as advice to the Province of Ontario on the recommended approach to recover species at risk. The Province ensures the preparation of recovery strategies to meet its commitments to recover species at risk under the Endangered Species Act, 2007 (ESA, 2007) and the Accord for the Protection of Species at Risk in Canada.

Recovery of species at risk is the process by which the decline of an endangered, threatened, or extirpated species is arrested or reversed, and threats are removed or reduced to improve the likelihood of a species' persistence in the wild.

Under the ESA, 2007, a recovery strategy provides the best available scientific knowledge on what is required to achieve recovery of a species. A recovery strategy outlines the habitat needs and the threats to the survival and recovery of the species. It also makes recommendations on the objectives for protection and recovery, the approaches to achieve those objectives, and the area that should be considered in the development of a habitat regulation. Sections 11 to 15 of the ESA, 2007 outline the required content and timelines for developing recovery strategies published in this series.

Recovery strategies are required to be prepared for endangered and threatened species within one or two years respectively of the species being added to the Species at Risk in Ontario list. There is a transition period of five years (until June 30, 2013) to develop recovery strategies for those species listed as endangered or threatened in the schedules of the ESA, 2007. Recovery strategies are required to be prepared for extirpated species only if reintroduction is considered feasible.

Nine months after the completion of a recovery strategy a government response statement will be published which summarizes the actions that the Government of Ontario intends to take in response to the strategy. The implementation of recovery strategies depends on the continued cooperation and actions of government agencies, individuals, communities, land users, and conservationists.

To learn more about species at risk recovery in Ontario, please visit the Ministry of Natural Resources Species at Risk webpage.

Jefferson Salamander Recovery Team. 2010. Recovery strategy for the Jefferson Salamander (Ambystoma jeffersonianum) in Ontario. Ontario Recovery Strategy Series. Prepared for the Ontario Ministry of Natural Resources, Peterborough, Ontario. vi + 29 pp.

Cover illustration:Leo Kenney, Vernal Pool Association

© Queen's Printer for Ontario, 2010
ISBN 978-1-4435-0904-6 (PDF)

Content (excluding the cover illustration) may be used without permission, with appropriate credit to the source.

The recovery strategy was developed by the Jefferson Salamander Recovery Team.

Members of the recovery team wish to acknowledge people who have submitted salamander eggs to the University of Guelph for identification, in particular Mary Gartshore, Bill Lamond, Al Sandilands and Craig Campbell. We would also like to thank David Servage, Lesley Lowcock and Alison Taylor, who made significant contributions to our understanding of the complex Ambystoma laterale (Blue-Spotted Salamander)–jeffersonianum complex during their tenures in the Master of Science program at the University of Guelph. Karine Bériault and Cadhla Ramsden’s research on habitat requirements and non-lethal sampling methods has been invaluable. Leslie Rye and Wayne Weller accumulated the information and produced the status report for the Committee on the Status of Endangered Wildlife in Canada (COSEWIC). Special mention is extended to Brenda Van Ryswyk and Albert Garofalo, who collected much of the data for the radio-telemetry studies, and to Pete Lyons, who provided property access. The recovery team would also like to thank Fiona Reid and Don Scallen for their help with locating new populations of this species. Sarah Weber is acknowledged for her thorough copy edit of this strategy.

The Ontario Ministry of Natural Resources has led the development of this recovery strategy for the Jefferson Salamander in accordance with the requirements of the Endangered Species Act, 2007 (ESA 2007). This recovery strategy has been prepared as advice to the Government of Ontario, other responsible jurisdictions and the many different constituencies that may be involved in recovering the species.

The recovery strategy does not necessarily represent the views of all of the individuals who provided advice or contributed to its preparation, or the official positions of the organizations with which the individuals are associated.

The goals, objectives and recovery approaches identified in the strategy are based on the best available knowledge and are subject to revision as new information becomes available. Implementation of this strategy is subject to appropriations, priorities and budgetary constraints of the participating jurisdictions and organizations.

Success in the recovery of this species depends on the commitment and cooperation of many different constituencies that will be involved in implementing the directions set out in this strategy.

Ontario Ministry of Natural Resources
Environment Canada, Canadian Wildlife Service – Ontario

This recovery strategy outlines the objectives and strategies necessary for the protection and recovery of Canadian populations of the Jefferson Salamander (Ambystoma jeffersonianum). The strategy was developed with the goal of ensuring that existing threats to populations and habitat of this species are sufficiently removed to allow for long-term persistence and expansion of the Jefferson Salamander within its existing Canadian range. The strategy is based on a comprehensive review of current and historical population census data and research, in addition to genetic analyses that provide accurate identifications of this salamander species and members of the Ambystoma laterale (Blue-Spotted Salamander)–jeffersonianum complex.

Jefferson Salamander populations have a distinctive genetic evolutionary history. Ontario populations coexist with unisexual individuals that are mostly polyploids with a predominance of Jefferson Salamander chromosomes, and which together are referred to as members of the A. laterale–jeffersonianium complex. Jefferson Salamander and polyploids use the same habitat, and the polyploids are reproductively dependant on the Jefferson Salamander. That is, the presence of jeffersonianum-dominated polyploid eggs necessarily means that Jefferson Salamander is present as a sperm donor for those unisexual polyploids. For these reasons, the recommendations in this recovery strategy relating to the identification, mapping and protection of habitat apply to both Jefferson Salamander and jeffersonianum-dominated polyploids. The apparent absence or lack of documentation of a Jefferson Salamander individual is often the result of naturally low relative abundance and/or limited search effort (Bogart and Klemens 2008).

Major threats to the Jefferson Salamander in Ontario include habitat loss, habitat fragmentation and degradation/alteration, road mortality, impairment of wetland/hydrologic function and the introduction of fish to breeding ponds.

The conservation biology of the Jefferson Salamander is well known in comparison to that of other species at risk in Ontario. This recovery strategy provides the scientific basis with which to establish habitat protection guidelines and make recommendations to protect this species in Ontario. Toward this end, this recovery strategy also outlines and prioritizes recovery approaches and programs. Because known Jefferson Salamander populations exist in areas that are presently under development pressure, there is an urgent need to implement the recovery approaches and to communicate the recovery goals to municipalities, developers and other stakeholders where conflicts exist or are anticipated.

It is recommended that the habitat regulation for the Jefferson Salamander include:

Any newly discovered breeding locations and associated terrestrial habitat, as well as extirpated and historical locations where suitable habitat remains, should also be included within the regulation.

Common Name: Jefferson Salamander

Scientific Name: Ambystoma jeffersonianum

SARO List Classification: Threatened

SARO List History: Threatened (2004)

COSEWIC Assessment History: Threatened (2000)

SARA Schedule 1: Threatened (June 5, 2003)

Conservation Status Rankings: GRANK: G4; NRANK: N2; SRANK: S2

The glossary provides definitions for the abbreviations above.

The Jefferson Salamander (Ambystoma jeffersonianum) is a relatively large grey to brownish grey salamander (snout to vent length: 65–96 millimetres [mm]). Bishop (1947) described egg masses of this species. The eggs are incorporated in gelatinous masses that are attached to sticks and species stems. Each egg mass contains 16 to 40 large (2.0–2.5 mm) eggs, which contain a black or dark brown embryo enclosed in a distinct envelope. A loose, watery layer of protective gel surrounds the eggs. The dark melanin pigment and the gel covering (and any algae in it), along with dissolved organic matter in the water, protect the developing embryos from damage through exposure to ultraviolet B radiation (Licht 2003). Individual females lay several such egg masses, which contain more than 200 eggs, depending on the size of the female.

Breeding success varies from year to year, depending on spring weather and water-level conditions. However, because Jefferson Salamanders are long lived (up to 30 years) populations can be resilient to such variable reproductive output. Eggs complete their development in two to four weeks (depending primarily on water temperature). Hatchlings are 10 to 14 millimetres in total length. The transformation from larvae to adults normally occurs in July and August, when juveniles move out of the pond and seek shelter in the forest litter. The larval stage varies in duration and can extend into early September.

The unusual reproductive biology and genetics of the Jefferson Salamander have presented a number of challenges in formulating recovery recommendations. The summary below is intended to explain the main aspects of the A. laterale (Blue-Spotted Salamander)–jeffersonianum complex.

Jefferson Salamander populations normally coexist with unisexual individuals that are mostly polyploid with a predominance of Jefferson Salamander chromosomes; together they constitute the A. laterale–jeffersonianum complex. The presence of eggs of jeffersonianum-dominated polyploids necessarily and absolutely indicates the presence of a breeding pure Jefferson Salamander, which is required as a sperm donor to initiate egg development of jeffersonianum-dominated polyploids (Bogart and Klemens 1997, 2008, Rye and Weller 2000, OMNR 2008 unpublished data). In Ontario, the correspondence between pure Jefferson Salamanders and jeffersonianum-dominated polyploids is absolute, as is the case in New England and New York (Bogart and Klemens 1997, 2008). Pure Jefferson Salamanders and jeffersonianum-dominated polyploids cannot be separated by habitat or in many cases by morphology. Therefore, genetic analysis is often required to distinguish pure Jefferson Salamanders from polyploids, and particularly to distinguish pure female Jefferson Salamanders. Blue-spotted Salamanders (Ambystoma laterale) and laterale-dominated polyploids are the other members of the complex. Polyploids dominated by the Blue-spotted Salamander are not indicative of Jefferson Salamanders. Polyploid members of the complex are generally triploid, but tetraploid and pentaploid individuals have also been documented (Bogart 2003).

Contrary to earlier theories, there is no evidence of past or present hybridization among the members of the A. laterale–jeffersonianium complex (Bogart 2003). Mitochondrial DNA from polyploid females predates that of the Jefferson Salamander and Blue-spotted Salamander (Bogart et al. 2007) and has been matched with that of a Kentucky population of the Streamside Salamander (Ambystoma barbouri) (Bogart 2003). The genetic mixing that occurs within the polyploid component of the complex is attributed to an unusual reproductive strategy (gynogenesis) whereby polyploid females lay mostly unreduced eggs (eggs whose number of sets of chromosomes is equivalent to that of the parent's somatic cells), and where sperm from a diploid male is required solely to initiate egg development (Elinson et al. 1992). Occasionally, reduced eggs (eggs with only one set of chromosomes) will be present in an egg mass, and genetic material from sperm can be incorporated into the embryos (Bogart 2003).

Jeffersonianum-dominated polyploids demonstrate the same ecology and use of habitat as pure Jefferson Salamanders (Bériault 2005, OMNR 2008). However, jeffersonianum-dominated polyploids are much more abundant, normally comprising 90 to 95 percent of local populations (Bogart and Klemens 2008, 1997, OMNR 2008 unpublished data). Therefore, many search efforts focused on finding Jefferson Salamanders using a random sampling of the population would probably encounter only jeffersonianum-dominated polyploids.

Because the Jefferson Salamander and jeffersonianum-dominated polyploids cannot be separated by habitat, and because the perpetuation of the polyploid component of the complex is dependent on the presence of the Jefferson Salamander, the recommendations in this recovery strategy relating to the identification, description, mapping and protection of habitat apply to both the Jefferson Salamander and jeffersonianum-dominated polyploids. The state of Connecticut has gone one step further and has afforded equal protection to polyploids (Bogart and Klemens 2008).

The presence of the Jefferson Salamander is critical to the survival and existence of unisexuals that make up the majority of the population complex and use Jefferson Salamander males as sperm donors.

Jefferson Salamander larvae are voracious aquatic predators that feed on moving prey such as insect larvae, small crustaceans and amphibian larvae. Adults probably are prey for wetland predators, such as snakes, rodents and birds, for example, the Red-shouldered Hawk (Buteo lineatus). The Jefferson Salamander plays an important role in channeling nutrients between the aquatic environment and the upland wooded environment and is an indicator species of high-quality vernal pools.

The Canadian range of the Jefferson Salamander is restricted to southern Ontario, particularly along the Niagara Escarpment World Biosphere Reserve. In the United States, the species ranges from New York and New England south and southwestward to Indiana, Kentucky, West Virginia and Virginia. An ecological isolate occurs in east-central Illinois (Petranka 1998) (figure 1). For much of this range, genetic data are unavailable, so the continental distribution of pure Jefferson Salamanders and jeffersonianum-dominated polyploids is uncertain (Bogart and Klemens 1997).

The current global conservation status rank for the Jefferson Salamander was assigned by the Association for Biodiversity Information (ABI) (NatureServe 2008). Its ranking for the Jefferson Salamander is G4, a level of ranking assigned to species with greater than 100 site occurrences and greater than 10,000 individuals, giving the species an apparently secure ranking globally. NatureServe also applies conservation status ranks at the national (N) and subnational (S) (i.e., provinces or states) levels. Table 1 summarizes the NatureServe rankings for the Canadian and U.S. populations. The species has been designated as imperilled (S2) in Ontario, Illinois and Vermont and is considered to be apparently secure (S4) in only 5 of the 14 states where it is found. Notably, the species is also listed as threatened in Ontario under the Endangered Species Act, 2007 (ESA 2007) and in Canada under the federal Species at Risk Act (SARA).

Table 1. Summary of NatureServe (2008) Conservation Status Ranks for the Jefferson Salamander
Jurisdiction Conservation Status Rank
Global G4
Canada N2
Ontario S2
United States N4
Connecticut S3
Illinois S2
Indiana S4
Kentucky S4
Maryland S3
Massachusetts S2S3
New Hampshire S2S3
New Jersey S3
New York S4
Ohio SNR
Pennsylvania S4
Vermont S2
Virginia S4
West Virginia S3

Legend:

N2/S2 – Imperilled (i.e., extremely rare or especially vulnerable)

S3 – Vulnerable to extirpation or extinction (i.e., rare and uncommon)

G4/N4/S4 – Apparently Secure (i.e., uncommon but not rare)

SNR – Unranked

Figure 1. Global range for the Jefferson Salamander (NatureServe 2005)
Map - See long description below figure 1

Note: This map is based on Element Occurrence (EO) records, which represent specific locality data that are developed and maintained by individual provincial and state natural heritage programs. The Canadian distribution is shown as individual occurrences and the U.S. distribution is shown as the watersheds where the occurrences are found.

Long description for Figure 1 - Part 2

The distribution of the Jefferson Salamander in Canada as of October 2008 is based on approximately 328 known breeding ponds representing approximately 27 geographically discrete populations. A geographically discrete population is one that is separated or isolated from other populations by gaps in habitat that limit or prevent gene flow. Distribution data reflect both extant and historic occurrences.

Figure 2 provides the most current locality information for the species. The information is based on a database of all Ontario locations that were compiled by the recovery team and housed at the Natural Heritage Information Centre (NHIC).

The NHIC (2003) has assigned the species a rank of S2 (i.e., very rare in Ontario; usually between 5 and 20 element occurrences in the province, or few remaining hectares, or with many individuals in fewer occurrences; often susceptible to extirpation). The S-rank applies only to pure Jefferson Salamanders, which, by virtue of their very low relative abundance within the complex, means they are exceedingly rare.

In Ontario, known extant populations of the Jefferson Salamander occur in:

A population in Wellington County, south of Guelph, is probably extirpated. Jefferson Salamanders were last observed at that site in April 1989 (Bogart unpublished data) and the breeding pond was dry in successive years (1990–93). Historically, the Jefferson Salamander was probably much more widely distributed throughout southwestern and south-central Ontario before the clearing of forests for agriculture.

Populations of the Jefferson Salamander in Canada are situated at the northern limit of the species' North American range. The Canadian populations probably represent a maximum of 1 to 3 percent of the estimated North American population, based on relative ranges (Rye and Weller 2000) (figure 1).

Figure 2: Documented locations of the Jefferson Salamander in Ontario
Graph - See long description below figure 2
Long description for Figure 2 - Part 2

The Jefferson Salamander was first recognized to occur in Canada by Weller and Sprules in 1976. The present knowledge of this species indicates that the current isolated populations are remnants of what was once a more extensive (i.e., continuous) range throughout southern Ontario. Fragmentation and loss of habitat have led to the isolation of these populations. In the part of the province located south and east of the Canadian Shield, over 70 percent of the original woodlands have been lost since European settlement (Riley and Mohr 1994). Habitats have been further lost and fragmented as a result of large-scale agriculture, urbanization, road networks and resource development activities, such as aggregate extraction.

As noted above, the Canadian range of this species comprises approximately 27 known populations in Ontario. One breeding pond does not necessarily represent a population; several or many breeding ponds within an area may support a discrete population. Populations are represented by one or more breeding ponds within an area of contiguous suitable habitat.

Available population census information does not permit an assessment of global abundance trends for this species. Its current global conservation status rank is G4 (NatureServe 2008), which indicates that the species is apparently secure within its range. In Ontario, however, threats to the Jefferson Salamander (see section 1.6) are well known, and cumulative loss and impairment of habitat continue.

Temporal trends for this species are not readily available because of the challenges in identifying the Jefferson Salamander and the unisexuals. As stated earlier, jeffersonianum-dominated polyploids occur at much greater relative abundance and normally comprise 90 to 95 percent of local populations (Bogart and Klemens 1997, 2008, OMNR 2008 unpublished data). This means that pure Jefferson Salamanders represent only 5 to 10 percent of the relative abundance of the population (Bogart and Klemens 2008).

Normally, estimations of distribution of vertebrate species may be obtained from museum records and voucher specimens. Such historical identifications of the Jefferson Salamander, as well as available museum records, are, however, not necessarily accurate. Bishop (1947), in his classic book on North American salamanders, lumped all presently recognized members of the complex (Blue-spotted Salamander, Jefferson Salamander and all unisexuals) in a single species, the Jefferson Salamander. Until 1964, most museum curators adhered to Bishop's nomenclature without the benefit of genetic confirmation. It is now understood that distinguishing between most individuals of the complex that are catalogued in major museum collections is not possible.

Uzzell (1964) tried to establish ranges for the Jefferson Salamander by sorting the males into Blue-spotted Salamander and Jefferson Salamander and by using blood-cell size to distinguish diploid and triploid females. Uzzell's ranges for the Jefferson Salamanderwere based on very few individuals (8 from Massachusetts, 1 from New Jersey, 37 from New York and 1 from Vermont). Bogart and Klemens (1997) provided a more accurate range of the Jefferson Salamander in New York and New England through the isozyme screening of 1,006 individuals from 106 sites. That large sample identified only 66 pure Jefferson Salamander individuals (6.59%). The global range (figure 1) is based on limited data, and occurrences in many regions still require genetic confirmation.

Jefferson Salamander individuals occur in all of the populations shown in figure 2 (Bogart 1982, Bogart and Cook 1991, Lamond 1994, Bogart unpublished information), but some of these localities have not been revisited for more than 10 years.

Despite difficulties in genetic identification, the available population data show a declining trend (Rye and Weller 2000).

During the first spring rains in March and April, adult Jefferson Salamanders migrate overland at night to breeding ponds (e.g., vernal pools) where mating and oviposition take place.The species uses a range of wetland types for breeding. Breeding ponds are generally vernal pools that are fed by either groundwater (e.g., springs), snowmelt or surfacewater. These types of ponds normally dry in mid to late summer. Other types of wetlands used for breeding may have permanent or semi-permanent water. The ponds are generally located within a woodland or in proximity to a woodland. Jefferson Salamander individuals demonstrate strong pond fidelity, returning to the same pond each year to breed.

Within breeding ponds the Jefferson Salamander requires low shrubs, twigs, fallen tree branches, submerged riparian vegetation or emergent vegetation to which to attach egg masses.

Research has shown that the depth of the water, water temperature, pH, and other water-chemistry and water-quality parameters are not good predictors of the species' use of breeding ponds (Bériault 2005). In central Pennsylvania, one of the few regions in which unisexuals do not coexist with the Jefferson Salamander,embryonic (larval) mortality was high in ponds with a pH below 4.5. Because the Jefferson Salamander larvae are not particularly susceptible to relatively low pH (K. Beriault pers. comm.), mortality was probably affected by the availability of prey (Sadinski and Dunson 1992).

Food must be present in the breeding ponds. Known aquatic prey includes small aquatic invertebrates and amphibian larvae.

For egg masses and juvenile and adult Jefferson Salamanders to survive, breeding ponds must not contain fish that can prey on them.

The hydrologic and hydrogeologic integrity of breeding habitat must be maintained. This requires that both surfacewater hydrology and groundwater contributions are not disrupted, altered or diminished. Hydrologic assessments are required for any adjacent land use that may impact groundwater or surfacewater supporting the breeding pond.

Jefferson Salamanders use a number of terrestrial habitats during all parts of their life cycle, including during migration to and from breeding ponds, summer and fall movement and foraging, and overwintering. Most often, these salamanders are associated with deciduous or mixed woodlands. Terrestrial habitat must contain microhabitat, such as rodent burrows, rock fissures, downed woody debris, tree stumps and buttresses, leaf litter, logs, and so on. Other than during migration and breeding, Jefferson Salamanders reside in this microhabitat, overwintering in deep rock fissures and rodent burrows below the frost line. Summer burrows are horizontal and winter burrows are vertical (Faccio 2003). Jefferson Salamanders are also known to show fidelity to their terrestrial habitat (Thompson et al. 1980, OMNR 2008 unpublished data).

Prey in the terrestrial habitat includes insects, earthworms and other invertebrates.

Migratory movements occur in a variety of habitats, including woodlands, plantations, agricultural fields and early successional areas, and across roads. Radio-telemetry studies have documented that the migratory distance of adults of the jeffersonianum complex can range from hundreds of metres up to 1 kilometre from the breeding pond into surrounding habitat (Bériault 2005, Faccio 2003, Semlitsch 1998, OMNR 2008 unpublished data). Radio-telemetry studies in Ontario, however, also found that 90 percent of adults reside in suitable habitat within 300 metres of their breeding pond (Bériault 2005, OMNR 2008 unpublished data).

Factors affecting the Jefferson Salamander include the limited availability of the habitats required by the species, namely, vernal pools or fishless wetlands in woodlands for breeding, and loose, moist soils in deciduous or mixed woodlands in terrestrial sites for burrowing.

Climate change may also have an effect on the timing and success of the breeding season and on habitat.

For breeding to be successful, suitable egg attachment sites must be available, and the pond must contain an adequate amount of food. At all life stages, the Jefferson Salamander is vulnerable to predation by fish; therefore, ponds containing fish capable of preying on this species are not suitable as habitat. Many forested wetlands are connected by stream systems that provide access for fish. The lack of vernal pools and fishless wetlands in woodlands is a limiting factor.

Egg and larval mortality have been observed to be high in ponds used by most populations of the Jefferson Salamander, but dead eggs are usually attributed to the polyploids. It is believed that this is a genetic viability issue in some polyploids. Larval mortality is also high among polyploid individuals (Bogart and Licht 1986). In some years, populations can be negatively affected by ponds drying or freezing completely when adult salamanders are breeding or prior to larval transformation.

The terrestrial habitat must have an adequate humus layer, leaf litter, stumps, logs, root holes, rock fissures, an appropriate soil type and mammal burrows to support feeding, moisture retention and the avoidance of predators.

The following threats to the Jefferson Salamander are presented in order of priority.

Anthropogenic threats include development activities that result in the cumulative loss and degradation of habitat and fragmentation of breeding ponds and woodlands. Activities associated with urbanization, aggregate extraction and other resource development are the most significant threats to Jefferson Salamanders in southern Ontario. The range of this species is concentrated along the Niagara Escarpment, which is a significant aggregate extraction area.

Impacts from development include site clearing and grading that alter cover, topography and drainage patterns; stormwater management and increases in impervious cover that alter natural hydroperiod regimes; alteration of the water balance of adjacent wetlands and the moisture content of soils; and silt fencing that prevents and/or hinders migration of salamanders. Urbanization, aggregate extraction and roads can result in the loss, impairment and fragmentation of habitat. In addition to direct habitat loss and fragmentation, any resource development activity that may alter the water table or cause a disruption or modification to groundwater flow has the potential to alter wetland hydroperiods and breeding habitat, water balance, wetland function and soil moisture regimes in adjacent Jefferson Salamander habitat.

Some roads (and urbanization) can create barriers that limit salamander dispersal and abundance and fragment habitat. Vehicles frequently kill Jefferson Salamanders as they cross roads, and curbs may act as barriers and catch basins as traps. Roads also are a source of chemicals and pollutants (e.g., salt) that degrade adjacent aquatic and terrestrial habitat. Roads create zones of disturbance characterized by noise and light pollution, and contribute to the desiccation of migrating adult salamanders and their increased vulnerability to predators.

Relevant to this discussion is an examination of why Jefferson Salamanders were not found in some sites in recent years. Perhaps the species is extirpated in these populations. Again, data are limited, but the species' absence is probably due to habitat changes associated with anthropogenic disturbance. Premature drying of ponds can result from the removal of a part of the protective canopy, drawing down the water table in developed areas, or altering watercourses for snowmelt and runoff. The reduction of vernal pond "envelopes" and buffer zones also has been suggested as contributing to the reduction and possible elimination of species of Ambystoma salamanders (Calhoun and Klemens 2002).

As Jefferson Salamanders are generally associated with deciduous woodlands, the terrestrial habitat of the species is vulnerable to forestry activities. Forestry activities and the equipment used in them may result in the filling of vernal pools, alteration of vernal pool hydrology, sedimentation, removal or alteration of associated upland habitat (removal of canopy cover, stumps, logs and leaf litter, and alteration of nutrient inputs by leaves), pollution and fragmentation or isolation of vernal pools from the terrestrial habitat.

Heavy use by hikers, cyclists and all-terrain vehicle users of recreational trails near breeding pools and terrestrial habitat may also result in salamander mortality or habitat degradation.

Collection of amphibians and reptiles for the pet trade is a growing concern and may be a threat to the Jefferson Salamander. Knowledge of the species' whereabouts is not widespread in the general public since adult Jefferson salamanders migrate and breed during very few rainy nights early in spring, and juveniles migrate in late summer or early fall. A bigger human-related threat is the addition to breeding ponds of carnivorous fish, which prey on all life stages of the salamander.

Key knowledge gaps relating to the Jefferson salamander include (but are not limited to) the following:

These knowledge gaps have been grouped below in terms of the research requirements for clarifying threats and increasing biological/ecological information.

To date, little research has focused directly on natural and human threats to this species. Direct threats, such as habitat loss and degradation associated with resource development and urbanization, need to be quantified and evaluated within the context of cumulative impacts on the distribution and abundance of the Jefferson Salamander. Indirect threats (e.g., development activities that cause changes to wetland hydrology on adjacent lands) require detailed investigation and monitoring to determine cause-and-effect relationships and to evaluate the effectiveness of proposed mitigation. All potential threats to the Jefferson Salamander should be investigated empirically and weighted against other threats. Threats are often difficult to manage; therefore, it is important to amass empirical data to support recovery planning in consultation with planning authorities, developers and stakeholders.

Little is known about the dispersal patterns of juvenile Jefferson Salamanders. It is theorized that juveniles probably disperse farther than adults to establish new breeding ponds and/or populations when the carrying capacity has been reached in existing breeding ponds (J. Bogart pers. comm.).

All radio-telemetry studies completed to date have focused on the spring/summer migration of adults. Future radio-telemetry studies are required to learn more about fall migration. They would help in obtaining more information on Jefferson Salamander overwintering sites, use of terrestrial habitat and microhabitats, communal or individual use of sites, and so on.

Work on several of the recovery objectives (see table 2) has begun, and a number of studies on the species have been completed.

In 2004, the University of Guelph initiated radio-telemetry studies of a southern Ontario Jefferson Salamander population (K. Bériault 2005). These studies focused on the movement and habitat use of LJJFootnote16 polyploids (sample size of 16). To increase the sample size of radio-tagged salamanders and to investigate additional questions relating to habitat use, movements and population demographics, the Ontario Ministry of Natural Resources (OMNR) continued and expanded the study in 2005. Radio transmitters were implanted in 17 additional polyploids from the same location and in 9 and 10 individuals, respectively, at two different sites in Peel Region. In 2007 and 2008, OMNR conducted additional radio-telemetry monitoring of both polyploids and pure Jefferson Salamanders at a site in Halton Region. With an additional 59 salamanders monitored, for a total sample size of 111, these studies have generated extensive data on the movements and terrestrial habitat use of the Jefferson Salamander and jeffersonianum-dominated polyploids. These findings, in addition to other studies cited in this document, provide the basis for the recommendations for habitat regulations in section 2.5.

In 2002 and 2003, the recovery team worked with the Regional Municipality of York to determine whether Jefferson Salamander populations existed in York Region. Field investigations revealed four populations of Jefferson Salamander. They are the only ones known in York Region and represent the easternmost population of this species in Ontario.

In 2003, the recovery team formed a partnership with the University of Guelph to update the database of all known Jefferson Salamander and polyploid occurrences. Since 2003, more than 100 wetlands with the potential to support Ambystoma species have been searched to determine whether the Jefferson Salamander is present. Fifteen new breeding sites have been documented, while at some of the historical breeding locations the species has been confirmed to be extirpated because of habitat disturbance or loss. Because of the elusive nature of this species, the limited window of time in which to find them and the fact that they may not breed every year if conditions are not appropriate, it is difficult to determine with certainty that a breeding location is extirpated. These findings highlight the rarity of the Jefferson Salamander, particularly in areas that are not located on the Niagara Escarpment.

Also in 2003/04, the Niagara Escarpment Biosphere Reserve, in partnership with Ontario's Niagara Escarpment (ONE) Monitoring Program staff and the University of Guelph, and under the direction of the recovery team, undertook a study to examine the location and habitat conditions of Jefferson Salamander breeding sites along the Niagara Escarpment. The study focused on historically known breeding locations that the University of Guelph had documented in 1990 and 1991. One historic breeding pond could not be located; whether this was due to inaccurate location information or whether the pond was no longer present could not be determined. Eleven historic breeding ponds (at four geographically discrete locations) were located and searched for egg masses. The presence of the Jefferson Salamander was confirmed at one of the sites. At two sites, egg masses were collected but did not survive genotyping. At one historic site, none of the ponds that were searched contained Jefferson Salamander or polyploid egg masses. The presence of the Jefferson Salamander was confirmed at one new location in Halton Regionwhere the species was not previously documented. In accordance with the recommendations in this recovery strategy, the seven sites where the Jefferson Salamander was not found should be revisited to confirm the presence or absence of the species.

In 2004, also under the direction of the recovery team, a number of conservation authorities (including Grand River Conservation Authority, Hamilton Conservation Authority, Conservation Halton, Credit Valley Conservation, and Toronto and Region Conservation Authority) continued to contribute to the recovery process and recovery planning by allocating staff time and resources to revisiting vernal pools previously known to support the Jefferson Salamander, and to investigating other potential habitats within their watersheds.

In 2006, and continuing in 2007, the University of Toronto at Mississauga, Evergreen, EcoSource Mississauga and Credit Valley Conservation have, under the direction of the recovery team, partnered to assess both habitat conditions and potential human-related impacts on a Jefferson Salamander breeding pond in Peel Region. Information gathered through this project will contribute to the understanding of groundwater contributions to the breeding pond, and of habitat impacts associated with use of recreational trails.

At the University of Guelph, microsatellite molecular markers for the Jefferson Salamander (Julian et al. 2003) have been and continue to be used effectively to identify diploid Jefferson Salamanders and distinguish polyploid members of the complex. These markers may also address other questions regarding population dynamics and genetics that involve the unisexual part of the complex.

Many members of the recovery team are associated with or work for regional conservation groups or authorities. In May 2003, OMNR ran workshops in Halton Region and Waterloo Region that provided instruction on egg mass identification and outlined the protocol for obtaining samples for genetic analyses. Recovery team members attended these workshops.

Aurora District OMNR has produced Guideline for Applicants for Wildlife Scientific Collectors Authorizations (2007). This guideline includes detailed direction on collection methodologies and study design requirements that are directly applicable to the Jefferson Salamander. OMNR and the recovery team have worked extensively with a number of consultants, the aggregates industry and conservation authorities in providing direction on collection methodologies and protocols.

The recovery goal is to ensure that existing threats to populations and habitat of the Jefferson Salamander are sufficiently removed to allow for the long-term persistence and expansion of the species within its existing Canadian range.

The priority of the short-term recovery objectives, and the overall recovery goal, is the protection of existing populations of the Jefferson Salamander by ensuring that no further loss or degradation of known habitat or potentially suitable habitat (recovery habitat) occur. Habitat protection is critical to the survival of the species. Protection of existing habitat should have priority over compensation for lost habitat (i.e., the creation of habitat). Consistent with general principles of conservation biology for species at risk, compensatory measures such as habitat creation and species relocation efforts should be undertaken only as a last resort and when other measures (e.g., mitigation) have proved unsuccessful.

Protection, restoration and enhancement of existing Jefferson Salamander habitat are the priority recovery planning recommendations. Habitat alterations that would adversely affect the species should be discouraged.

At present, there is no basis for protecting newly created features (e.g., breeding ponds) because colonization and use of such features has not been sufficiently documented. Created habitat cannot immediately replace existing habitat that Jefferson Salamanders use.

In addition, long-term (i.e., potentially decades) forest and wetland restoration or remediation proposals intended to compensate for losses of existing habitat are not in keeping with recovery planning for the Jefferson Salamander and other species at risk.

Table 2. Protection and recovery objectives
No. Protection or Recovery Objective
1. Identify and monitor extant populations of the Jefferson Salamander in Canada
2. Apply research findings on the species' movements and habitat use to ensure protection of habitat
3. Identify historic populations/sites with the potential for enhancement or restoration (e.g., recovery habitat)
4. Develop a communication strategy to inform municipalities, planners, the development industry, property managers and other stakeholders of the habitat mapping and protection requirements for the Jefferson Salamander under the ESA 2007 and other recovery planning initiatives
5. Develop and evaluate mitigation and restoration techniques employed to address threats
Table 3. Approaches to recovery of the Jefferson Salamander in Ontario
Priority Objective
Number
Broad Approach/ Strategy Specific Steps Measurable Outcomes
Urgent 1, 3 Identification of populations
  • Verify and document extant, historic and potential populations
  • Provision of accurate data for subsequent research, monitoring and mapping
Urgent 1 Population and habitat monitoring
  • Develop and implement a standardized monitoring protocol and a five-year monitoring schedule that will focus on:
  • the presence/absence of salamanders
  • site-specific and cumulative impacts
  • range expansion/retraction
  • assessment of trends in habitat condition
  • Site-specific information for each population in Canada
  • A measure of the success of the species' recovery
  • A central repository and data custodian for information collected
Urgent 1 Population and habitat monitoring/ research
  • Select at least one long-term control site and conduct annual monitoring
  • Prioritize monitoring frequency of locations on the basis of current and potential threats
  • Consistent baseline information to compare against effects noted at other sites
Urgent 2, 3 Description of habitat recommended for regulation under the ESA 2007
  • Describe and identify aquatic and terrestrial habitat for extant populations
  • Identify and describe recovery habitat (historic locations and presently unoccupied areas with suitable habitat)
  • Provision of advice to government to inform the habitat regulation process under the ESA 2007
Urgent 4 Habitat protection
  • Work with planning authorities to encourage integration of the habitat regulation into official plans and other relevant planning processes
  • Percentage of the reviewed official plans that integrate protection of the areas prescribed in the habitat regulation
Urgent 4 Communications
  • Identify communication needs and products that will provide information and resources to landowners, property managers, the aggregate industry, local stewardship councils, local conservation authorities and other stakeholders to assist in the recovery effort and promote land stewardship
  • Support monitoring by stakeholders
  • Early inclusion/consideration of recovery plan recommendations in higher order planning documents
  • Production of a list of stakeholders involved in active stewardship and monitoring projects
High 5 Restoration and enhancement of historic sites
  • At historic sites, identify factors that probably caused the loss of the population (e.g., water-level fluctuations, addition of fish, loss of egg attachment sites)
  • Prioritize potential sites for restoration activity
  • Evaluate restoration and mitigation techniques
  • A number of re-established populations and/or resumption of breeding and successful recruitment
  • Demonstrated effectiveness and subsequent assessment of mitigation techniques
High 2 Research
  • Continue research on species ecology, juvenile dispersion, population biology and parameters consistent with conservation biology planning, using control sites to provide benchmark data for comparison with other locations
  • Research providing additional data and products that will assist in the refinement of the recovery strategy and contribute to improved understanding of the ecology/biology of this species
High 5 Research
  • Investigate the species' tolerance to environmental and cultural stressors (e.g., environmental contaminants, agricultural activities, urban development, resource extraction)
  • Detailed information regarding stressors that negatively affect populations, which will be used in addressing and mitigating threats and in assessing impacts
High 5 Research
  • Conduct research on the hydrology of breeding habitat
  • Improved understanding of hydrological characteristics (specifically the hydroperiod) and sensitivity of breeding habitat to changes in the quantity and quality of water
  • Identification methods to study, assess and characterize the hydroperiod of breeding habitat

Performance measures have been identified that will evaluate the success and progress of the recovery approaches set out in this strategy. These performance measures will also indicate the extent to which the objectives have been met. They include:

Under the ESA 2007, a recovery strategy must include a recommendation to the Minister of Natural Resources on the area that should be considered in developing a habitat regulation. A habitat regulation is a legal instrument that prescribes an area that will be protected as the habitat of the species. The recommendation provided below by the author will be one of many sources considered by the Minister when developing the habitat regulation for this species.

The following is a description of the area that is recommended to be prescribed in the regulation as habitat for the Jefferson Salamander.

All wetlands or wetland features that provide suitable breeding conditions for the Jefferson Salamander and jeffersonianum-dominated polyploids, such as vernal pools, woodland pools, deciduous swamps, spring-fed pools, groundwater-supported wetlands, sloughs, old deepened or created ponds or ditches where breeding Jefferson Salamanders occur should be included within the habitat regulation.

All such wetlands and features have sites for egg attachment and a sufficient combination of hydroperiod, temperature and productivity to support the deposition and development of eggs and larvae. However, breeding habitat can be dynamic and conditions variable from year to year, depending on precipitation and water levels. This can result in variable breeding activity and success from one year to next. For this reason, surveys intended to determine the presence of Jefferson Salamanders in new locations may need to be conducted for up to three years to ensure that adequate effort has gone into investigating the species' presence. In the case of historic locations, a minimum of three consecutive years of surveys that fail to indicate the presence of the Jefferson Salamander must be conducted to confirm the extirpation of the species from that specific historic site. All life stages of the Jefferson Salamander are vulnerable to predation by fish; therefore, ponds containing fish that can prey on Jefferson Salamanders are not suitable breeding habitat.

The terrestrial component of Jefferson Salamander habitat consists of woodlands, upland forests, swamps, successional areas, meadows, old fields, agricultural fields and other vegetated areas that provide conditions required for foraging, dispersal, migration, growth and hibernation. Terrestrial habitat includes all of the areas and features described above that extend radially 300 metres from the edge of the breeding pond. The 300 metre distance is based on the findings of telemetry studies (Bériault 2005, OMNR 2008 unpublished data) and is calculated as the habitat area used by 90 percent of the adult population for each breeding location, identified on the basis of movements of tracked individuals. Terrestrial habitat that meets these requirements should be included within the habitat regulation.

Corridors that provide contiguous connections between breeding locations can extend up to a maximum of 1 kilometre and should also be included within the habitat regulation. Non-vegetated open areas such as agricultural fields may be used as migratory corridors between the breeding pond and forested areas.

The following features should not be included within the habitat regulation:

New occurrences of the Jefferson Salamander are expected to be discovered. For the purposes of investigating the presence of this species at previously unsurveyed locations, appropriate surveys for up to three consecutive years may be required to document its presence. This is because breeding success may be intermittent due to variable conditions.

Any newly discovered breeding locations and associated terrestrial habitat, as well as extirpated and historical locations where suitable habitat remains, should also be included within the regulation.

Jefferson Salamanders occasionally breed in old farm ponds and human-created depressions that have reached a substantial state of wetland succession (probably after decades) and that occur within or close to existing forested or other naturally vegetated areas. Most of these ponds/depressions occur in locations where wetlands had originally existed or where portions of wetlands have been deepened. The vast majority of wetlands on the landscape that existed before agricultural conversion have been eliminated, and therefore the Jefferson Salamander uses some naturalized human-created depressions as breeding habitat, which should be included within the habitat regulation.

At present there is no basis for protecting newly created features (e.g., breeding ponds) within a habitat regulation because colonization and use of such features has not been sufficiently documented. Created habitat cannot immediately replace existing habitat that the Jefferson Salamander uses.

Name Affiliation and Location
Dr. Jim Bogart (Team Chair) Department of Zoology
University of Guelph
Emma Followes (Team Coordinator) District Ecologist
Ministry of Natural Resources
Aurora District
Heather Lynn Natural Heritage Ecologist
Credit Valley Conservation
Kim Barrett Senior Ecologist
Conservation Halton
John Pisapio Wildlife Biologist
Ministry of Natural Resources
Aurora District
Ron Gould Species at Risk Biologist
Ministry of Natural Resources
Aylmer District
Dr. Bob Murphy Senior Curator
Centre for Biodiversity and Conservation Biology Royal Ontario Museum
Anne Marie Laurence Ecological Monitoring Specialist
Ontario's Niagara Escarpment (ONE) Monitoring Program
Niagara Escarpment Commission
Lisa Grbinicek Environmental Planner
Ontario's Niagara Escarpment (ONE) Monitoring Program
Niagara Escarpment Commission
Tony Zammit Ecologist
Grand River Conservation Authority
Scott Sampson Natural Heritage Ecologist
Credit Valley Conservation
Sue Hayes Project Coordinator, Terrestrial Field Inventories
Toronto and Region Conservation Authority
Karine Bériault Species at Risk Biologist
Ministry of Natural Resources
Vineland Area Office




Species at risk recovery is a key part of protecting Ontario's biodiversity. Biodiversity – the variety of life on Earth – provides us with clean air and water, food, fibre, medicine and other resources that we need to survive.

The Endangered Species Act, 2007 (ESA) is the Government of Ontario's legislative commitment to protecting and recovering species at risk and their habitats. As soon as a species is listed as extirpated, endangered or threatened under the ESA, it is automatically protected from harm or harassment. Also, immediately upon listing, the habitats of endangered and threatened species are protected from damage or destruction.

Under the ESA, the Ministry of Natural Resources (the Ministry) must ensure that a recovery strategy is prepared for each species that is listed as endangered or threatened. A recovery strategy provides science-based advice to government on what is required to achieve recovery of a species.

Within nine months after a recovery strategy is prepared, the ESA requires the Ministry to publish a statement summarizing the government's intended actions and priorities in response to the recovery strategy. The recovery strategy for Jefferson Salamander was completed on February 18, 2010. (http://www.mnr.gov.on.ca/stdprodconsume/groups/lr/@mnr/@species/documents/document/286968.pdf)

The response statement is the government's policy response to the scientific advice provided in the recovery strategy. In addition to the strategy, the response statement is based on input from stakeholders, other jurisdictions, Aboriginal communities and members of the public. It reflects the best available traditional, local and scientific knowledge at this time and may be modified if new information becomes available. In implementing the actions in the response statement, the ESA allows the Ministry to determine what is feasible, taking into account social and economic factors.

The Jefferson Salamander is listed as a threatened species under the ESA which protects both the species and its habitat. The Government of Ontario has demonstrated its commitment to protecting the Jefferson Salamander by prescribing its specific habitat in regulation. The Act prohibits any damage or destruction of that habitat without authorization. Such authorization would require that conditions established by the Ministry be met.

The government's goal for the recovery of the Jefferson Salamander is to ensure that threats to populations and habitat are addressed, in order to allow for the long-term persistence and expansion of the species within its existing Ontario range.

Protecting and recovering species at risk is a shared responsibility. No single agency or organization has the knowledge, authority, or financial resources to protect and recover all of Ontario's species at risk. Successful recovery requires inter-governmental co-operation and the involvement of many individuals, organizations and communities.

In developing the government response statement, the Ministry considered what actions are feasible for the government to lead directly, and what actions are feasible for the government to support its conservation partners to undertake.

To help protect and recover Jefferson Salamander, the government will directly undertake the following actions:

The government endorses the following actions as being necessary for the protection and recovery of the Jefferson Salamander. Actions which are noted as "high" will be given priority consideration for funding or for authorizations under the ESA. The government will focus its support on these high priority actions over the next five years.

Objective: Identify and monitor populations of the Jefferson Salamander in Ontario.

Actions:

Objective: Evaluate and implement threat mitigation and habitat restoration techniques.

Actions:

Objective:Address knowledge gaps on the species' movements and habitat use to inform protection of habitat.

Actions:

Awareness

Objective: Raise awareness and promote stewardship of Jefferson Salamanders and their habitat in Ontario.

Actions:

Financial support for the implementation of actions may be available through the Species at Risk Stewardship Fund, Species at Risk Farm Incentive Program, or Community Fisheries and Wildlife Involvement Program. Conservation partners are encouraged to discuss project proposals related to the actions in this response statement with the Ministry of Natural Resources. The Ministry can also advise whether any authorizations under the ESA or other legislation may be required for undertaking the project.

Implementation of the actions may be subject to changing priorities across the multitude of species at risk, available resources and the capacity of partners to undertake recovery activities. Where appropriate, the implementation of actions for multiple species will be co-ordinated across government response statements.

The ESA requires the Ministry to conduct a review of progress towards protecting and recovering a species not later than five years from the publication of this response statement. The review will help identify whether adjustments are needed to achieve the protection and recovery of the Jefferson Salamander.

We would like to thank everyone who participated in the development of the "Recovery Strategy for the Jefferson Salamander in Ontario" for their dedication to protecting and recovering species at risk.

Visit the species at risk website
Contact your MNR district office
Contact the Natural Resources Information Centre
1-800-667-1940
TTY 1-866-686-6072
mnr.nric.mnr@ontario.ca
ontario.ca/mnr

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