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Species reintroduction

April 10, 2024

Species reintroduction is the deliberate release of a species into the wild, from captivity or other areas where the organism is capable of survival.[1] The goal of species reintroduction is to establish a healthy, genetically diverse, self-sustaining population to an area where it has been extirpated, or to augment an existing population.[2] Species that may be eligible for reintroduction are typically threatened or endangered in the wild. However, reintroduction of a species can also be for pest control; for example, wolves being reintroduced to a wild area to curb an overpopulation of deer. Because reintroduction may involve returning native species to localities where they had been extirpated, some prefer the term "reestablishment".[1]

A Przewalski's horse being released into the wild in Mongolia, as part of the Return of the Wild Horses project.

Humans have been reintroducing species for food and pest control for thousands of years. However, the practice of reintroducing for conservation is much younger, starting in the 20th century.[3]

Methods for sourcing individuals edit

There are a variety of approaches to species reintroduction. The optimal strategy will depend on the biology of the organism.[4] The first matter to address when beginning a species reintroduction is whether to source individuals in situ, from wild populations, or ex situ, from captivity in a zoo or botanic garden, for example.

In situ sourcing edit

In situ sourcing for restorations involves moving individuals from an existing wild population to a new site where the species was formerly extirpated. Ideally, populations should be sourced in situ when possible due to the numerous risks associated with reintroducing organisms from captive populations to the wild.[5] To ensure that reintroduced populations have the best chance of surviving and reproducing, individuals should be sourced from populations that genetically and ecologically resemble the recipient population.[6] Generally, sourcing from populations with similar environmental conditions to the reintroduction site will maximize the chance that reintroduced individuals are well adapted to the habitat of the reintroduction site otherwise there are possibilities that they will not take to their environment. .[7][6]

One consideration for in situ sourcing is at which life stage the organisms should be collected, transported, and reintroduced. For instance, with plants, it is often ideal to transport them as seeds as they have the best chance of surviving translocation at this stage. However, some plants are difficult to establish as seed and may need to be translocated as juveniles or adults.[4]

Ex situ sourcing edit

In situations where in situ collection of individuals is not feasible, such as for rare and endangered species with too few individuals existing in the wild, ex situ collection is possible. Ex situ collection methods allow storage of individuals that have high potential for reintroduction. Storage examples include germplasm stored in seed banks, sperm and egg banks, cryopreservation, and tissue culture.[5] Methods that allow for storage of a high numbers of individuals also aim to maximize genetic diversity. Stored materials generally have long lifespans in storage, but some species do lose viability when stored as seed.[8] Tissue culture and cryopreservation techniques have only been perfected for a few species.[9]

Organisms may also be kept in living collections in captivity. Living collections are more costly than storing germplasm and hence can support only a fraction of the individuals that ex situ sourcing can.[5] Risk increases when sourcing individuals to add to living collections. Loss of genetic diversity is a concern because fewer individuals stored.[10] Individuals may also become genetically adapted to captivity, which often adversely affects the reproductive fitness of individuals. Adaptation to captivity may make individuals less suitable for reintroduction to the wild. Thus, efforts should be made to replicate wild conditions and minimize time spent in captivity whenever possible.[11]

Successes and failures edit

 
Arabian oryx were reintroduced to Oman and Israel in the 20th century.

Reintroduction biology is a relatively young discipline and continues to be a work in progress. No strict and accepted definition of reintroduction success exists, but it has been proposed that the criteria widely used to assess the conservation status of endangered taxa, such as the IUCN Red List criteria, should be used to assess reintroduction success.[12] Successful reintroduction programs should yield viable and self-sustainable populations in the long-term. The IUCN/SSC Re-introduction Specialist Group & Environment Agency, in their 2011 Global Re-introduction Perspectives, compiled reintroduction case studies from around the world.[13] 184 case studies were reported on a range of species which included invertebrates, fish, amphibians, reptiles, birds, mammals, and plants. Assessments from all of the studies included goals, success indicators, project summary, major difficulties faced, major lessons learned, and success of project with reasons for success or failure. A similar assessment focused solely on plants found high rates of success for rare species reintroductions.[14] An analysis of data from the Center for Plant Conservation International Reintroduction Registry found that, for the 49 cases where data were available, 92% of the reintroduced plant populations survived two years. The Siberian tiger population has rebounded from 40 individuals in the 1940s to around 500 in 2007. The Siberian tiger population is now the largest un-fragmented tiger population in the world.[15] Yet, a high proportion of translocations and reintroductions have not been successful in establishing viable populations.[16] For instance, in China reintroduction of captive Giant Pandas have had mixed effects. The initial pandas released from captivity all died quickly after reintroduction.[17] Even now that they have improved their ability to reintroduce pandas, concern remains over how well the captive-bred pandas will fare with their wild relatives.[18]

Many factors can attribute to the success or failure of a reintroduction. Predators, food, pathogens, competitors, and weather can all affect a reintroduced population's ability to grow, survive, and reproduce. The number of animals reintroduced in an attempt should also vary with factors such as social behavior, expected rates of predation, and density in the wild.[19] Animals raised in captivity may experience stress during captivity or translocation, which can weaken their immune systems.[20] The IUCN reintroduction guidelines emphasize the need for an assessment of the availability of suitable habitat as a key component of reintroduction planning.[21] Poor assessment of the release site can increase the chances that the species will reject the site and perhaps move to a less suitable environment. This can decrease the species fitness and thus decrease chances for survival.[20] They state that restoration of the original habitat and amelioration of causes of extinction must be explored and considered as essential conditions for these projects. Unfortunately, the monitoring period that should follow reintroductions often remains neglected.[22]

Genetic considerations edit

When a species has been extirpated from a site where it previously existed, individuals that will comprise the reintroduced population must be sourced from wild or captive populations. When sourcing individuals for reintroduction, it is important to consider local adaptation, adaptation to captivity (for ex situ conservation), the possibility of inbreeding depression and outbreeding depression, and taxonomy, ecology, and genetic diversity of the source population.[2] Reintroduced populations experience increased vulnerability to influences of drift, selection, and gene flow evolutionary processes due to their small sizes, climatic and ecological differences between source and native habitats, and presence of other mating-compatible populations.[11][23][24][25]

If the species slated for reintroduction is rare in the wild, it is likely to have unusually low population numbers, and care should be taken to avoid inbreeding and inbreeding depression.[2] Inbreeding can change the frequency of allele distribution in a population, and potentially result in a change to crucial genetic diversity.[2] Additionally, outbreeding depression can occur if a reintroduced population can hybridize with existing populations in the wild, which can result in offspring with reduced fitness, and less adaptation to local conditions. To minimize both, practitioners should source for individuals in a way that captures as much genetic diversity as possible, and attempt to match source site conditions to local site conditions as much as possible.[2]

Capturing as much genetic diversity as possible, measured as heterozygosity, is suggested in species reintroductions.[2] Some protocols suggest sourcing approximately 30 individuals from a population will capture 95% of the genetic diversity.[2] Maintaining genetic diversity in the recipient population is crucial to avoiding the loss of essential local adaptations, minimizing inbreeding depression, and maximizing fitness of the reintroduced population.

Ecological similarity edit

Plants or animals that undergo reintroduction may exhibit reduced fitness if they are not sufficiently adapted to local environmental conditions. Therefore, researchers should consider ecological and environmental similarity of source and recipient sites when selecting populations for reintroduction. Environmental factors to consider include climate and soil traits (pH, percent clay, silt and sand, percent combustion carbon, percent combustion nitrogen, concentration of Ca, Na, Mg, P, K).[6] Historically, sourcing plant material for reintroductions has followed the rule "local is best," as the best way to preserve local adaptations, with individuals for reintroductions selected from the most geographically proximate population.[26] However, geographic distance was shown in a common garden experiment to be an insufficient predictor of fitness.[6] Additionally, projected climatic shifts induced by climate change have led to the development of new seed sourcing protocols that aim to source seeds that are best adapted to project climate conditions.[27] Conservation agencies have developed seed transfer zones that serve as guidelines for how far plant material can be transported before it will perform poorly.[28] Seed transfer zones take into account proximity, ecological conditions, and climatic conditions in order to predict how plant performance will vary from one zone to the next. A study of the reintroduction of Castilleja levisecta found that the source populations most physically near the reintroduction site performed the poorest in a field experiment, while those from the source population whose ecological conditions most closely matched the reintroduction site performed best, demonstrating the importance of matching the evolved adaptations of a population to the conditions at the reintroduction site.[29]

Adaptation to captivity edit

Some reintroduction programs use plants or animals from captive populations to form a reintroduced population.[2] When reintroducing individuals from a captive population to the wild, there is a risk that they have adapted to captivity due to differential selection of genotypes in captivity versus the wild. The genetic basis of this adaptation is selection of rare, recessive alleles that are deleterious in the wild but preferred in captivity.[11] Consequently, animals adapted to captivity show reduced stress tolerance, increased tameness, and loss of local adaptations.[30] Plants also can show adaptations to captivity through changes in drought tolerance, nutrient requirements, and seed dormancy requirements.[31] Extent of adaptation is directly related to intensity of selection, genetic diversity, effective population size and number of generations in captivity. Characteristics selected for in captivity are overwhelmingly disadvantageous in the wild, so such adaptations can lead to reduced fitness following reintroduction. Reintroduction projects that introduce wild animals generally experience higher success rates than those that use captive-bred animals.[11] Genetic adaptation to captivity can be minimized through management methods: by maximizing generation length and number of new individuals added to the captive population; minimizing effective population size, number of generations spent in captivity, and selection pressure; and reducing genetic diversity by fragmenting the population.[2][11] For plants, minimizing adaptation to captivity is usually achieved by sourcing plant material from a seed bank, where individuals are preserved as wild-collected seeds, and have not had the chance to adapt to conditions in captivity. However, this method is only plausible for plants with seed dormancy.[11]

Genetic trade-offs edit

In reintroductions from captivity, translocation of animals from captivity to the wild has implications for both captive and wild populations. Reintroduction of genetically valuable animals from captivity improves genetic diversity of reintroduced populations while depleting captive populations; conversely, genetically valuable captive-bred animals may be closely related to individuals in the wild and thus increase risk of inbreeding depression if reintroduced. Increasing genetic diversity is favored with removal of genetically overrepresented individuals from captive populations and addition of animals with low genetic relatedness to the wild.[32][33] However, in practice, initial reintroduction of individuals with low genetic value to the captive population is recommended to allow for genetic assessment before translocation of valuable individuals.[33]

Improving research techniques edit

A cooperative approach to reintroduction by ecologists and biologists could improve research techniques. For both preparation and monitoring of reintroductions, increasing contacts between academic population biologists and wildlife managers is encouraged within the Survival Species Commission and the IUCN. The IUCN states that a re-introduction requires a multidisciplinary approach involving a team of persons drawn from a variety of backgrounds.[21] A survey by Wolf et al. in 1998 indicated that 64% of reintroduction projects have used subjective opinion to assess habitat quality.[20] This means that most reintroduction evaluation has been based on human anecdotal evidence and not enough has been based on statistical findings. Seddon et al. (2007) suggest that researchers contemplating future reintroductions should specify goals, overall ecological purpose, and inherent technical and biological limitations of a given reintroduction, and planning and evaluation processes should incorporate both experimental and modeling approaches.[3]

Monitoring the health of individuals, as well as the survival, is important; both before and after the reintroduction. Intervention may be necessary if the situation proves unfavorable.[21] Population dynamics models that integrate demographic parameters and behavioral data recorded in the field can lead to simulations and tests of a priori hypotheses. Using previous results to design further decisions and experiments is a central concept of adaptive management. In other words, learning by doing can help in future projects. Population ecologists should therefore collaborate with biologists, ecologists, and wildlife management to improve reintroduction programs.[34]

Genetic monitoring edit

For reintroduced populations to successfully establish and maximize reproductive fitness, practitioners should perform genetic tests to select which individuals will be the founders of reintroduced populations and to continue monitoring populations post-reintroduction.[4] A number of methods are available to measure the genetic relatedness between and variation among individuals within populations. Common genetic diversity assessment tools include microsatellite markers, mitochondrial DNA analyses, alloenzymes, and amplified fragment length polymorphism markers.[35] Post-reintroduction, genetic monitoring tools can be used to obtain data such as population abundance, effective population size, and population structure, and can also be used to identify instances of inbreeding within reintroduced populations or hybridization with existing populations that are genetically compatible. Long-term genetic monitoring is recommended post-reintroduction to track changes in genetic diversity of the reintroduced population and determine success of a reintroduction program. Adverse genetic changes such as loss of heterozygosity may indicate management intervention, such as population supplementation, is necessary for survival of the reintroduced population.[36][37][38]

Re-introduction Specialist Group (RSG) edit

The RSG is a network of specialists whose aim is to combat the ongoing and massive loss of biodiversity by using re-introductions as a responsible tool for the management and restoration of biodiversity. It does this by actively developing and promoting sound inter-disciplinary scientific information, policy, and practice to establish viable wild populations in their natural habitats. The role of the RSG is to promote the re-establishment of viable populations in the wild of animals and plants. The need for this role was felt due to the increased demand from re-introduction practitioners, the global conservation community and increase in re-introduction projects worldwide.

Increasing numbers of animal and plant species are becoming rare, or even extinct in the wild. In an attempt to re-establish populations, species can – in some instances – be re-introduced into an area, either through translocation from existing wild populations, or by re-introducing captive-bred animals or artificially propagated plants.

Reintroduction programs edit

Africa edit

Asia edit

Middle East edit

Europe edit

 
Black-bellied hamster (Cricetus cricetus), also known as European hamster, common hamster

North America edit

Oceans and Oceania edit

South America edit

 
A Chaco tortoise being released into the wild in Santiago del Estero, Argentina.

See also edit

References edit

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Further reading edit

  • Armstrong, D, Hayward, M, Moro, D, Seddon, P 2015. Advances in Reintroduction Biology of Australian and New Zealand Fauna, CSIRO Publishing, ISBN 9781486303014
  • Gorbunov, Y.N., Dzybov, D.S., Kuzmin, Z.E. and Smirnov, I.A. 2008. Methodological recommendations for botanic gardens on the reintroduction of rare and threatened plants Botanic Gardens Conservation International (BGCI)
  • Shmaraeva, A. and Ruzaeva, I. 2009. BG Journal, Vol. 6, No. 1

External links edit

  • IUCN/SSC Re-introduction Specialist Group
  • Reintroduction of Golden Eagle to Ireland
  • BBC News release on Beaver reintroduction in England
  • Reintroduction of Great Bustard to England
  • Reintroduction of endangered plant species in China: , ,

April 10, 2024
species, reintroduction, deliberate, release, species, into, wild, from, captivity, other, areas, where, organism, capable, survival, goal, species, reintroduction, establish, healthy, genetically, diverse, self, sustaining, population, area, where, been, exti. Species reintroduction is the deliberate release of a species into the wild from captivity or other areas where the organism is capable of survival 1 The goal of species reintroduction is to establish a healthy genetically diverse self sustaining population to an area where it has been extirpated or to augment an existing population 2 Species that may be eligible for reintroduction are typically threatened or endangered in the wild However reintroduction of a species can also be for pest control for example wolves being reintroduced to a wild area to curb an overpopulation of deer Because reintroduction may involve returning native species to localities where they had been extirpated some prefer the term reestablishment 1 A Przewalski s horse being released into the wild in Mongolia as part of the Return of the Wild Horses project Humans have been reintroducing species for food and pest control for thousands of years However the practice of reintroducing for conservation is much younger starting in the 20th century 3 Contents 1 Methods for sourcing individuals 1 1 In situ sourcing 1 2 Ex situ sourcing 2 Successes and failures 3 Genetic considerations 3 1 Ecological similarity 3 2 Adaptation to captivity 3 3 Genetic trade offs 4 Improving research techniques 4 1 Genetic monitoring 5 Re introduction Specialist Group RSG 6 Reintroduction programs 6 1 Africa 6 2 Asia 6 2 1 Middle East 6 3 Europe 6 4 North America 6 5 Oceans and Oceania 6 6 South America 7 See also 8 References 9 Further reading 10 External linksMethods for sourcing individuals editThere are a variety of approaches to species reintroduction The optimal strategy will depend on the biology of the organism 4 The first matter to address when beginning a species reintroduction is whether to source individuals in situ from wild populations or ex situ from captivity in a zoo or botanic garden for example In situ sourcing edit In situ sourcing for restorations involves moving individuals from an existing wild population to a new site where the species was formerly extirpated Ideally populations should be sourced in situ when possible due to the numerous risks associated with reintroducing organisms from captive populations to the wild 5 To ensure that reintroduced populations have the best chance of surviving and reproducing individuals should be sourced from populations that genetically and ecologically resemble the recipient population 6 Generally sourcing from populations with similar environmental conditions to the reintroduction site will maximize the chance that reintroduced individuals are well adapted to the habitat of the reintroduction site otherwise there are possibilities that they will not take to their environment 7 6 One consideration for in situ sourcing is at which life stage the organisms should be collected transported and reintroduced For instance with plants it is often ideal to transport them as seeds as they have the best chance of surviving translocation at this stage However some plants are difficult to establish as seed and may need to be translocated as juveniles or adults 4 Ex situ sourcing edit In situations where in situ collection of individuals is not feasible such as for rare and endangered species with too few individuals existing in the wild ex situ collection is possible Ex situ collection methods allow storage of individuals that have high potential for reintroduction Storage examples include germplasm stored in seed banks sperm and egg banks cryopreservation and tissue culture 5 Methods that allow for storage of a high numbers of individuals also aim to maximize genetic diversity Stored materials generally have long lifespans in storage but some species do lose viability when stored as seed 8 Tissue culture and cryopreservation techniques have only been perfected for a few species 9 Organisms may also be kept in living collections in captivity Living collections are more costly than storing germplasm and hence can support only a fraction of the individuals that ex situ sourcing can 5 Risk increases when sourcing individuals to add to living collections Loss of genetic diversity is a concern because fewer individuals stored 10 Individuals may also become genetically adapted to captivity which often adversely affects the reproductive fitness of individuals Adaptation to captivity may make individuals less suitable for reintroduction to the wild Thus efforts should be made to replicate wild conditions and minimize time spent in captivity whenever possible 11 Successes and failures edit nbsp Arabian oryx were reintroduced to Oman and Israel in the 20th century Reintroduction biology is a relatively young discipline and continues to be a work in progress No strict and accepted definition of reintroduction success exists but it has been proposed that the criteria widely used to assess the conservation status of endangered taxa such as the IUCN Red List criteria should be used to assess reintroduction success 12 Successful reintroduction programs should yield viable and self sustainable populations in the long term The IUCN SSC Re introduction Specialist Group amp Environment Agency in their 2011 Global Re introduction Perspectives compiled reintroduction case studies from around the world 13 184 case studies were reported on a range of species which included invertebrates fish amphibians reptiles birds mammals and plants Assessments from all of the studies included goals success indicators project summary major difficulties faced major lessons learned and success of project with reasons for success or failure A similar assessment focused solely on plants found high rates of success for rare species reintroductions 14 An analysis of data from the Center for Plant Conservation International Reintroduction Registry found that for the 49 cases where data were available 92 of the reintroduced plant populations survived two years The Siberian tiger population has rebounded from 40 individuals in the 1940s to around 500 in 2007 The Siberian tiger population is now the largest un fragmented tiger population in the world 15 Yet a high proportion of translocations and reintroductions have not been successful in establishing viable populations 16 For instance in China reintroduction of captive Giant Pandas have had mixed effects The initial pandas released from captivity all died quickly after reintroduction 17 Even now that they have improved their ability to reintroduce pandas concern remains over how well the captive bred pandas will fare with their wild relatives 18 Many factors can attribute to the success or failure of a reintroduction Predators food pathogens competitors and weather can all affect a reintroduced population s ability to grow survive and reproduce The number of animals reintroduced in an attempt should also vary with factors such as social behavior expected rates of predation and density in the wild 19 Animals raised in captivity may experience stress during captivity or translocation which can weaken their immune systems 20 The IUCN reintroduction guidelines emphasize the need for an assessment of the availability of suitable habitat as a key component of reintroduction planning 21 Poor assessment of the release site can increase the chances that the species will reject the site and perhaps move to a less suitable environment This can decrease the species fitness and thus decrease chances for survival 20 They state that restoration of the original habitat and amelioration of causes of extinction must be explored and considered as essential conditions for these projects Unfortunately the monitoring period that should follow reintroductions often remains neglected 22 Genetic considerations editWhen a species has been extirpated from a site where it previously existed individuals that will comprise the reintroduced population must be sourced from wild or captive populations When sourcing individuals for reintroduction it is important to consider local adaptation adaptation to captivity for ex situ conservation the possibility of inbreeding depression and outbreeding depression and taxonomy ecology and genetic diversity of the source population 2 Reintroduced populations experience increased vulnerability to influences of drift selection and gene flow evolutionary processes due to their small sizes climatic and ecological differences between source and native habitats and presence of other mating compatible populations 11 23 24 25 If the species slated for reintroduction is rare in the wild it is likely to have unusually low population numbers and care should be taken to avoid inbreeding and inbreeding depression 2 Inbreeding can change the frequency of allele distribution in a population and potentially result in a change to crucial genetic diversity 2 Additionally outbreeding depression can occur if a reintroduced population can hybridize with existing populations in the wild which can result in offspring with reduced fitness and less adaptation to local conditions To minimize both practitioners should source for individuals in a way that captures as much genetic diversity as possible and attempt to match source site conditions to local site conditions as much as possible 2 Capturing as much genetic diversity as possible measured as heterozygosity is suggested in species reintroductions 2 Some protocols suggest sourcing approximately 30 individuals from a population will capture 95 of the genetic diversity 2 Maintaining genetic diversity in the recipient population is crucial to avoiding the loss of essential local adaptations minimizing inbreeding depression and maximizing fitness of the reintroduced population Ecological similarity edit Plants or animals that undergo reintroduction may exhibit reduced fitness if they are not sufficiently adapted to local environmental conditions Therefore researchers should consider ecological and environmental similarity of source and recipient sites when selecting populations for reintroduction Environmental factors to consider include climate and soil traits pH percent clay silt and sand percent combustion carbon percent combustion nitrogen concentration of Ca Na Mg P K 6 Historically sourcing plant material for reintroductions has followed the rule local is best as the best way to preserve local adaptations with individuals for reintroductions selected from the most geographically proximate population 26 However geographic distance was shown in a common garden experiment to be an insufficient predictor of fitness 6 Additionally projected climatic shifts induced by climate change have led to the development of new seed sourcing protocols that aim to source seeds that are best adapted to project climate conditions 27 Conservation agencies have developed seed transfer zones that serve as guidelines for how far plant material can be transported before it will perform poorly 28 Seed transfer zones take into account proximity ecological conditions and climatic conditions in order to predict how plant performance will vary from one zone to the next A study of the reintroduction of Castilleja levisecta found that the source populations most physically near the reintroduction site performed the poorest in a field experiment while those from the source population whose ecological conditions most closely matched the reintroduction site performed best demonstrating the importance of matching the evolved adaptations of a population to the conditions at the reintroduction site 29 Adaptation to captivity edit Some reintroduction programs use plants or animals from captive populations to form a reintroduced population 2 When reintroducing individuals from a captive population to the wild there is a risk that they have adapted to captivity due to differential selection of genotypes in captivity versus the wild The genetic basis of this adaptation is selection of rare recessive alleles that are deleterious in the wild but preferred in captivity 11 Consequently animals adapted to captivity show reduced stress tolerance increased tameness and loss of local adaptations 30 Plants also can show adaptations to captivity through changes in drought tolerance nutrient requirements and seed dormancy requirements 31 Extent of adaptation is directly related to intensity of selection genetic diversity effective population size and number of generations in captivity Characteristics selected for in captivity are overwhelmingly disadvantageous in the wild so such adaptations can lead to reduced fitness following reintroduction Reintroduction projects that introduce wild animals generally experience higher success rates than those that use captive bred animals 11 Genetic adaptation to captivity can be minimized through management methods by maximizing generation length and number of new individuals added to the captive population minimizing effective population size number of generations spent in captivity and selection pressure and reducing genetic diversity by fragmenting the population 2 11 For plants minimizing adaptation to captivity is usually achieved by sourcing plant material from a seed bank where individuals are preserved as wild collected seeds and have not had the chance to adapt to conditions in captivity However this method is only plausible for plants with seed dormancy 11 Genetic trade offs edit In reintroductions from captivity translocation of animals from captivity to the wild has implications for both captive and wild populations Reintroduction of genetically valuable animals from captivity improves genetic diversity of reintroduced populations while depleting captive populations conversely genetically valuable captive bred animals may be closely related to individuals in the wild and thus increase risk of inbreeding depression if reintroduced Increasing genetic diversity is favored with removal of genetically overrepresented individuals from captive populations and addition of animals with low genetic relatedness to the wild 32 33 However in practice initial reintroduction of individuals with low genetic value to the captive population is recommended to allow for genetic assessment before translocation of valuable individuals 33 Improving research techniques editA cooperative approach to reintroduction by ecologists and biologists could improve research techniques For both preparation and monitoring of reintroductions increasing contacts between academic population biologists and wildlife managers is encouraged within the Survival Species Commission and the IUCN The IUCN states that a re introduction requires a multidisciplinary approach involving a team of persons drawn from a variety of backgrounds 21 A survey by Wolf et al in 1998 indicated that 64 of reintroduction projects have used subjective opinion to assess habitat quality 20 This means that most reintroduction evaluation has been based on human anecdotal evidence and not enough has been based on statistical findings Seddon et al 2007 suggest that researchers contemplating future reintroductions should specify goals overall ecological purpose and inherent technical and biological limitations of a given reintroduction and planning and evaluation processes should incorporate both experimental and modeling approaches 3 Monitoring the health of individuals as well as the survival is important both before and after the reintroduction Intervention may be necessary if the situation proves unfavorable 21 Population dynamics models that integrate demographic parameters and behavioral data recorded in the field can lead to simulations and tests of a priori hypotheses Using previous results to design further decisions and experiments is a central concept of adaptive management In other words learning by doing can help in future projects Population ecologists should therefore collaborate with biologists ecologists and wildlife management to improve reintroduction programs 34 Genetic monitoring edit For reintroduced populations to successfully establish and maximize reproductive fitness practitioners should perform genetic tests to select which individuals will be the founders of reintroduced populations and to continue monitoring populations post reintroduction 4 A number of methods are available to measure the genetic relatedness between and variation among individuals within populations Common genetic diversity assessment tools include microsatellite markers mitochondrial DNA analyses alloenzymes and amplified fragment length polymorphism markers 35 Post reintroduction genetic monitoring tools can be used to obtain data such as population abundance effective population size and population structure and can also be used to identify instances of inbreeding within reintroduced populations or hybridization with existing populations that are genetically compatible Long term genetic monitoring is recommended post reintroduction to track changes in genetic diversity of the reintroduced population and determine success of a reintroduction program Adverse genetic changes such as loss of heterozygosity may indicate management intervention such as population supplementation is necessary for survival of the reintroduced population 36 37 38 Re introduction Specialist Group RSG editThe RSG is a network of specialists whose aim is to combat the ongoing and massive loss of biodiversity by using re introductions as a responsible tool for the management and restoration of biodiversity It does this by actively developing and promoting sound inter disciplinary scientific information policy and practice to establish viable wild populations in their natural habitats The role of the RSG is to promote the re establishment of viable populations in the wild of animals and plants The need for this role was felt due to the increased demand from re introduction practitioners the global conservation community and increase in re introduction projects worldwide Increasing numbers of animal and plant species are becoming rare or even extinct in the wild In an attempt to re establish populations species can in some instances be re introduced into an area either through translocation from existing wild populations or by re introducing captive bred animals or artificially propagated plants Reintroduction programs editAfrica edit Addax in Morocco and Tunisia 39 Chad 40 African bush elephant into Samara Private Game Reserve in Eastern Cape South Africa 41 African leopard into Majete Wildlife Reserve Malawi 42 43 44 African spurred tortoise in Senegal 45 African wild dog into Gorongosa National Park in Mozambique 46 47 and Lekedi Park Gabon successful 48 and Majete Wildlife Reserve in Malawi 49 Black rhinoceros in Malawi Zambia Botswana 50 51 Rwanda 52 successful and Chad 53 ongoing Gonarezhou National Park in Zimbabwe 54 55 Zinave National Park in Mozambique 56 Chimpanzee in the Douala Edea Wildlife Reserve in Cameroon 57 Cuvier s gazelle in Jebel Serj National Park Tunisia 58 Grevy s zebra in Djibouti 59 Ground pangolin into the Phinda Private Game Reserve in KwaZulu Natal South Africa 60 Lion to Akagera National Park of Rwanda 61 62 and Majete Wildlife Reserve and Liwonde National Park of Malawi 63 64 Mandrill into Lekedi Park Gabon 65 Mhorr gazelle subspecies of Dama gazelle into Safia Reserve in Southern Morocco failure and ongoing 66 North African ostrich in Morocco Nigeria Niger and Tunisia ongoing Plains zebra into Kitulo National Park in southern Tanzania 67 and Nsumbu National Park in northern Zambia 68 Scimitar oryx in Chad 69 70 71 Southern white rhinoceros in Kenya Uganda Zambia successful citation needed and Garamba National Park DR Congo 72 Akagera National Park Rwanda 73 South African cheetah in Eswatini and Malawi successful 74 Spotted hyena to Zinave National Park 75 and Gorongosa National Park planned 76 in Mozambique West African giraffe to Gadabedji Reserve Niger 77 78 Asia edit Amur leopard in Russia planned 79 80 81 Asian elephant into Doi Pha Muang Wildlife Sanctuary Thailand 82 Asian giant tortoise in Bangladesh 83 84 Asiatic Lion Reintroduction Project of Asiatic lion to Kuno Wildlife Sanctuary from their only home presently in the world at Gir Forest National Park Kuno Wildlife Sanctuary is the chosen site for re introducing and establishing the world s second completely separate population of the wild free ranging Asiatic lions in the state of Madhya Pradesh It was decided to re introduce the Asiatic lion in Kumbhalgarh Wildlife Sanctuary in Rajasthan Some will be reintroduced in two locations in Gujarat 3 Bengal tiger in Sariska Tiger Reserve of Rajasthan India 85 86 Bornean orangutan in East Kalimantan Indonesia 87 Bactrian deer subspecies of Central Asian red deer into Altyn Emel National Park in Kazakhstan 88 and Badai Tugai Nature Reserve in Uzbekistan 89 Burmese star tortoise in Myanmar 90 Cheetah reintroduction in India is a project to reintroduce the cheetah in India The Asiatic cheetah became extinct in India in 1947 when Maharaja of Surguja hunted the last three in the state of Rewa in central India It was officially declared extinct in 1952 by the Indian government Plans are going on to reintroduce the cheetah to two site in Madhya Pradesh Kuno Wildlife Sanctuary and Nauradehi Wildlife Sanctuary and in Rajasthan s Shahgarh Landscape Cheetahs are being acclimated to Kuno National Park 91 Chinese alligator into Yancheng Biosphere Reserve Jiangsu Province China 92 Crested ibis at Upo Wetland South Korea 93 and Sado Japan 94 95 Gaur into Bandhavgarh National Park in Madhya Pradesh India 96 Gharial at the Hastinapur Wildlife Sanctuary in Uttar Pradesh India 97 98 Indian rhinoceros in Pakistan ongoing and Dudhwa National Park in India 99 100 and Jim Corbett National Park planning 101 Korean fox subspecies of red fox in Sobaeksan National Park South Korea ongoing 102 Lar gibbon to Phuket Thailand 103 Magnolia sinica to China 104 Oriental stork in South Korea 105 Pere David s deer in China successful Persian leopard in European Russia ongoing Pileated gibbon into the protected forests of the Angkor Cambodia 106 Przewalski s horse in Mongolia China and Kazakhstan ongoing 107 108 Pygmy hogs into Sonai Rupai Wildlife Sanctuary in Assam India successful 109 Sarus cranes in Thailand ongoing Short tailed albatross in Japan successful 110 Siamese crocodile into Cat Tien National Park of Vietnam 111 112 Siberian Tiger Re population Project was proposed in 2009 to reintroduce Siberian tigers back to their former lands and including the former ranges in Central Asia once inhabited by their closest relatives the Caspian tiger In 2010 two pairs of Siberian tigers exchanged for Persian leopards to southwestern Russia were set to be reintroduced in Iran s Miankaleh Peninsula Currently the big cats one of them had died are being held in captivity in Eram zoo Siberian tigers were also proposed to be reintroduced to a suitable habitat near the international river of Amu Darya in Central Asia and near the Ili River delta in Kazakhstan A rewilding project at the Pleistocene Park part of the re population project was proposed back in 2005 113 South China tiger captive tigers being re wilded in Laohu Valley Reserve in the Free State province of South Africa under Save China s Tigers programme will be eventually released back into the wilderness of China Sumatran orangutan at Bukit Tigapuluh National Park in Jambi and Jantho Pine Forest Nature Reserve in Aceh Sumatra Indonesia 114 Turkmenian kulan in Kazakhstan ongoing and Uzbekistan successful Ussuri black bear subspecies of Asian black bear in Jirisan National Park South Korea ongoing 115 Water deer in Shanghai China successful 116 Wild water buffalo in Chitwan National Park of Nepal 117 and in Kanha National Park of Madhya Pradesh India 118 Middle East edit Arabian oryx in the Sultanate of Oman successful United Arab Emirates successful Israel successful 119 120 Egyptian vulture in Israel ongoing 121 Eurasian griffon vulture in Israel ongoing 122 Kurdistan spotted newt in Western Iran successful 123 Lanner falcon in Israel success 124 North African ostrich in Israel failure 125 Nubian ibex in Israel successful Jordan successful and Lebanon ongoing 126 127 128 Persian fallow deer in Israel successful 129 130 Persian onager in Saudi Arabia successful and Israel successful 131 Red deer to Armenia A programme was announced in 2013 to reintroduce the red deer to Armenia 4 males and 11 females of the species will be purchased and transported to a breeding centre at Dilijan National Park The World Wildlife Fund Germany and Orange Armenia have provided the funds for the project Roe deer in Israel ongoing 132 133 Yarkon bleak fish in Israel successful 134 Europe edit nbsp Black bellied hamster Cricetus cricetus also known as European hamster common hamsterAlpine ibex in the French Italian and Swiss Alps successful Alpine marmot in the Pyrenees where it had been extirpated at end of the Pleistocene successful 135 Black bellied hamster in Netherlands and Belgium successful 36 Black grouse to Derbyshire England ongoing Chequered skipper butterfly to Northamptonshire England ongoing 136 Common crane to Somerset England ongoing Corncrake to Cambridgeshire England ongoing Eurasian brown bear in the Alps ongoing 137 and in the Pyrenees ongoing Eurasian lynx in Switzerland successful the United Kingdom proposed and other parts of Europe ongoing European beaver in several countries in Europe successful European bison in Poland Belarus successful other parts of Europe including Denmark Spain Ukraine Romania the UK and others ongoing 138 139 European black vulture in the Massif Central in France successful European mink in Estonia and Spain ongoing 140 European wildcat in the Devon and Cornwall in England ongoing Heath fritillary butterfly to Essex England successful Glanville fritillary butterfly to Somerset England successful Goitered gazelle in protected areas of Vashlovani in Georgia ongoing 141 Golden eagle in Ireland ongoing Great bustard to Salisbury Plain England ongoing Griffon vulture in the Massif Central France successful Central Apennines Italy and Northern and Southern Israel ongoing Iberian lynx in Portugal ongoing Lammergeier in the Alps successful Switzerland successful Ladybird spider to Arne RSPB reserve in Dorset England ongoing 142 Large blue butterfly in the South West of England successful and ongoing 143 Lesser kestrel in Spain Lesser white fronted goose in Sweden and Germany ongoing Narrow leaved cudweed in Britain 144 Northern bald ibis in Austria Germany Italy 145 and Spain 146 ongoing Northern goshawk the existing UK population is believed to be derived from a mixture of escaped falconers birds and deliberate introductions successful Osprey to England and Wales successful Peregrine falcon in Germany Poland Sweden and Norway Persian leopard to Caucasus Biosphere Reserve European Russia 147 148 Pine marten in Wales ongoing 149 Przewalski s horse in Ukraine successful 150 Red kite in Ireland 151 Chiltern Hills Black Isle Northamptonshire Dumfries and Galloway Yorkshire Perth and Kinross and Gateshead successful and Spain ongoing 152 Red squirrel to Anglesey Wales successful and ongoing 153 Scots pine to southern England unplanned successful Silver washed fritillary to Essex England ongoing locally successful Western swamphen in the Mondego River basin Portugal successful White stork to France Sweden the Netherlands Belgium Switzerland all successful and England ongoing 154 White tailed eagle in Ireland ongoing and Hebrides Scotland successful England ongoing 155 and Wales planned on hold while a suitable site is found Wild boar to several places in Britain accidental successful North America edit American bison to El Carmen Nature Reserve 156 and Janos Biosphere Reserve 157 in Mexico American Prairie and many National Parks Wildlife Refuges and other public lands in the United States Banff National Park in Canada Alberta successful 158 159 160 American flamingo to Anegada British Virgin Islands successful 161 nbsp A fisher leaps from its holding container and darts off into the Gifford Pinchot National Forest Atlantic puffin to Eastern Egg Rock Island Maine 162 163 Bald eagle to Channel Islands National Park California 164 Black footed ferret in United States successful Canada and Mexico failure 164 165 Blanding s turtle in Canada 166 Blue and yellow macaw to Trinidad successful 167 California condor in United States California Arizona Utah Oregon and Mexico Baja California ongoing 168 Canada lynx to Colorado successful 169 New York failure 170 Chloropyron maritimum in Western United States 171 Cougar to Eastern United States proposed 172 Bighorn sheep in Oregon successful 164 173 Black tailed prairie dog in Arizona and New Mexico successful 174 Desert pupfish to Organ Pipe Cactus National Monument Arizona 164 Elk to eastern Kentucky 175 Great Smoky Mountains National Park Pennsylvania Allegheny National Forest Arizona New Mexico North Carolina and Tennessee all successful 164 176 177 and to New York failure 178 Fisher in Washington state successful 164 179 ongoing Geoffroy s spider monkey in Guatemala 180 Grey wolf to Yellowstone National Park in Wyoming 164 181 Idaho Montana California Oregon Washington successful 164 Colorado ongoing 182 183 Yucatan black howler in Belize 184 Mexican wolf in United States Arizona New Mexico and Mexico Sonora Chihuahua ongoing 185 Musk ox in Alaska successful Nene at Hawaiʻi Volcanoes National Park Hawaii ongoing 164 North American jaguar to Arizona and New Mexico proposed 186 North American river otter in Missouri successful 38 Pediocactus knowltonii in New Mexico 187 Red wolf in Eastern North Carolina ongoing the Gulf Coast failure and Great Smoky Mountains National Park failure 188 Ridgway s hawk to areas in the Dominican Republic where it is extirpated 189 Sargent s cherry palm in Florida successful 190 Scarlet macaw to Palenque Mexico 191 Whooping cranes including migratory population in the Eastern United States and non migratory population in Louisiana ongoing Wild turkey in South Carolina 192 193 West Indian manatee in the Grand Cul de Sac Marin Bay Guadeloupe failure 194 Wood bison in Alaska 195 Oceans and Oceania edit Allocasuarina portuensis in Australia 196 Eastern quoll in Australia ongoing 197 198 Greater bilby in Arid Recovery Reserve South Australia and other parts of Australia successful 199 Kakapō to Maungatautari mainland New Zealand ongoing 200 Komodo dragon to Australia proposed 201 North Island robin to Tiritiri Matangi Auckland New Zealand 202 Numbat in other areas of Western Australia Scotia Sanctuary New South Wales Yookamura Sanctuary South Australia 203 Ranunculus prasinus in Tasmania 204 Rutidosis leptorrhynchoides in Australia 205 Tasmanian devil in mainland of Australia ongoing 206 207 208 209 Toromiro to Easter Island 210 Woylie in Australia ongoing South America edit nbsp A Chaco tortoise being released into the wild in Santiago del Estero Argentina Andean condor in Colombia 211 Collared peccary in Ibera Provincial Reserve Argentina 212 Giant anteater in Corrientes Argentina 213 Giant otter to Ibera Provincial Reserve Argentina 214 215 216 Golden lion tamarin in the Atlantic Forest of Brazil 217 218 Guanaco in central Argentina Jaguar into Ibera Wetlands Argentina 219 Patagonian huemul into Huilo Huilo Biological Reserve in Chile 220 Red and green macaw to Ibera Provincial Reserve Argentina 221 South American tapir into Atlantic Forest of Brazil 222 223 Vinaceous breasted amazon to Parque Nacional das Araucarias Santa Catarina Brazil ongoing See also editDe extinction Ecological experiments Oostvaardersplassen Pleistocene Park Pleistocene rewilding Reintroduction of wolves Rewilding Britain Rewilding conservation biology Rewilding Institute Translocation wildlife conservation Wildlife conservation Wildlife management World Conservation Union IUCN References edit a b Campbell Palmer R Rosell F 2010 Conservation of the Eurasian beaver Castor fiber an olfactory perspective Mammal Review 40 4 293 312 doi 10 1111 j 1365 2907 2010 00165 x a b c d e f g h i Frankham Richard Ballou Jon Briscoe David 2004 01 01 Introduction to Conservation Genetics United Kingdom Cambridge University Press pp 419 470 ISBN 978 0 521 70271 3 OCLC 965796229 a b c Seddon Armstrong DP Maloney RF 2007 Developing the Science of Reintroduction Biology Conservation Biology 21 2 303 312 Bibcode 2007ConBi 21 303S doi 10 1111 j 1523 1739 2006 00627 x PMID 17391180 S2CID 10434140 a b c IUCN Guidelines for Restorations and Other Conservation Translocations PDF IUCN Retrieved 15 May 2017 a b c Maunder Mike Byers Onnie January 2005 The IUCN Technical Guidelines on the Management of Ex Situ Populations for Conservation reflecting major changes in the application of ex situ conservation Oryx 39 1 95 98 doi 10 1017 S0030605305000177 a b c d Montalvo Arlee M 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breeding programmes for endangered animal species Biodiversity and Conservation 20 9 1843 1861 Bibcode 2011BiCon 20 1843W doi 10 1007 s10531 011 0074 4 S2CID 19255252 a b c d e f Frankham Richard 2008 Genetic adaptation to captivity in species conservation programs Molecular Ecology 17 1 325 333 Bibcode 2008MolEc 17 325F doi 10 1111 j 1365 294x 2007 03399 x PMID 18173504 S2CID 8550230 Robert A Colas B Guigon I Kerbiriou C Mihoub JB Saint Jalme M Sarrazin F 2015 Defining reintroduction success using IUCN criteria for threatened species a demographic assessment Animal Conservation 18 5 397 406 Bibcode 2015AnCon 18 397R doi 10 1111 acv 12188 S2CID 85603026 Soorae P S ed 2011 Global Re introduction Perspectives 2011 More case studies from around the globe Gland Switzerland IUCN SSC Re introduction Specialist Group and Abu Dhabi UAE Environment Agency Abu Dhabi xiv 250 pp SBN 978 2 8317 1432 5 https portals iucn org library sites library files documents 2011 073 pdf Albrecht Matthew A Guerrant Jr Edward O Maschinski Joyce Kennedy Kathryn L 2011 11 01 A long term view of rare plant reintroduction Biological Conservation 144 11 2557 2558 Bibcode 2011BCons 144 2557A doi 10 1016 j biocon 2011 07 021 Rietbergen Jennifer Building a Sustainable Future WWF International 2008 Kleiman D G 1989 Reintroduction of captive mammals for conservation Guidelines for reintroducing endangered species into the wild BioScience 39 3 152 161 doi 10 2307 1311025 JSTOR 1311025 Reintroduction Program 2006 Pandas International Retrieved 2017 06 03 New Video Shows Returning Pandas to the Wild Actually Works 19 April 2017 Archived from the original on April 22 2017 Retrieved 2017 06 03 Wimberger Kirsten Downs Colleen T Perrin Mike R 2009 10 01 Two Unsuccessful Reintroduction Attempts of Rock Hyraxes Procavia capensis into a Reserve in the KwaZulu Natal Province South Africa South African Journal of Wildlife Research 39 2 192 201 doi 10 3957 056 039 0213 ISSN 0379 4369 S2CID 85997109 a b c Stamps J A Swaisgood R R 2007 Someplace like home Experience Habitat selection and Conservation Biology Applied Animal Behaviour Science 102 3 4 392 409 doi 10 1016 j applanim 2006 05 038 a b c Prepared by the SSC Re introduction Specialist Group May 1995 IUCN SSC Guidelines for Re Introductions http www iucnsscrsg org Sarrazin F Barbault R November 1996 Reintroduction Challenges and Lessons for Basic Ecology Elsevier Science Volume 11 No 11 Latch Emily K Rhodes Olin E 2006 01 21 The effects of gene flow and population isolation on the genetic structure of reintroduced wild turkey populations Are genetic signatures of source populations retained Conservation Genetics 6 6 981 997 doi 10 1007 s10592 005 9089 2 ISSN 1566 0621 S2CID 19523834 Sork Victoria L 2015 11 03 Gene flow and natural selection shape spatial patterns of genes in tree populations implications for evolutionary processes and applications Evolutionary Applications 9 1 291 310 doi 10 1111 eva 12316 PMC 4780383 PMID 27087853 Brekke Patricia 2011 High genetic diversity in the remnant island population of hihi and the genetic consequences of re introduction PDF Molecular Ecology 20 1 29 45 Bibcode 2011MolEc 20 29B doi 10 1111 j 1365 294X 2010 04923 x PMID 21073589 S2CID 25508833 Havens Kayri Vitt Pati Still Shannon Kramer Andrea T Fant Jeremie B Schatz Katherine 2015 01 01 Seed Sourcing for Restoration in an Era of Climate Change Natural Areas Journal 35 1 122 133 doi 10 3375 043 035 0116 ISSN 0885 8608 S2CID 86349716 Breed Martin F Stead Michael G Ottewell Kym M Gardner Michael G Lowe Andrew J 2013 02 01 Which provenance and where Seed sourcing strategies for revegetation in a changing environment Conservation Genetics 14 1 1 10 Bibcode 2013ConG 14 1B doi 10 1007 s10592 012 0425 z ISSN 1566 0621 S2CID 12813499 Rogers D L Montalvo A M 2004 Genetically appropriate choices for plant materials to maintain biological diversity University of California Report to the USDA Forest Service Rocky Mountain Region 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Senegal thanks to a unique transfer with Air France KLM Martinair Cargo EN VOLS Retrieved 30 August 2023 First Ever African Wild Dog Introduction to Gorongosa National Park Mozambique Wildlife ACT Retrieved 31 May 2019 The African Wild Dogs are back Gorongosa National Park Archived from the original on 30 May 2019 Retrieved 31 May 2019 New Residents Settle In at Lekedi Park Eramet Retrieved 21 April 2021 African Wild Dogs return to Malawi www africanparks org Retrieved 2023 01 05 Botswana Rhino Reintroduction Project Wildness Safaris Retrieved 31 May 2019 Rhino Conservation Botswana Rhino Conservation Botswana Retrieved 31 May 2019 Black rhinos return to Rwanda 10 years after disappearance The Guardian 3 May 2017 Retrieved 2019 05 22 Black rhino to be reintroduced in Chad The Guardian Black Rhino Reintroduction Gonarezhou National Park Retrieved 12 September 2023 Gonarezhou Black Rhino Reintroduction Rhino Recovery Fund Retrieved 12 September 2023 Black rhinos return to Zinave National 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Reproductive Success in Reestablished versus Natural Populations of a Threatened Grassland Daisy Rutidosis leptorrhynchoides Conservation Biology 14 3 780 785 Bibcode 2000ConBi 14 780M doi 10 1046 j 1523 1739 2000 98516 x ISSN 1523 1739 S2CID 84131099 After 3 000 years Tasmanian devils are returning to Australian mainland CNN 5 October 2020 Retrieved 29 November 2020 Tasmanian devils return to mainland Australia for first time in 3 000 years National Geographic 5 October 2020 Archived from the original on October 6 2020 Retrieved 29 November 2020 Tasmanian Devils Are Reintroduced to Australia s Mainland EcoWatch 9 October 2020 Retrieved 29 November 2020 Birth of Tassie devils could be first step to having them back on mainland after 3 000 years www abc net au 2021 05 27 Retrieved 2021 06 28 Maunder Mike Culham Alastair Alden Bjorn Zizka Georg Orliac Catherine Lobin Wolfram Bordeu Alberto Ramirez Jose M Glissmann Gough Sabine 2000 10 18 Conservation of the Toromiro Tree Case Study in the Management of a Plant Extinct in the Wild Conservation Biology 14 5 1341 1350 Bibcode 2000ConBi 14 1341M doi 10 1046 j 1523 1739 2000 98520 x ISSN 1523 1739 S2CID 86398422 The reintroduction of the Andean condor Conservation Evidence Retrieved 31 May 2019 Ibera Project Collared Peccary Proyecto Ibera Retrieved 2023 09 06 Ibera Project The Giant Anteater Proyecto Ibera Retrieved 31 May 2019 Ibera Project Giant Otter Proyecto Ibera Retrieved 2020 12 17 Rewilding in Argentina the giant river otter returns to Ibera park UN environment program 24 July 2019 Retrieved 2020 12 17 The giant river otter has returned to Argentina Lonely Planet Retrieved 2020 12 17 Reintroduction Save The Golden Lion Tamarin Retrieved 2023 06 20 The Golden Lion Tamarin Returns From Extinction Saving Nature Retrieved 2023 06 20 Jaguar Reintroduction Project in Argentina s Ibera Wetlands amp Beyond Retrieved 2022 11 24 Reintroducing endangered South American deer to Patagonian wilds MultiBrief Retrieved 2020 12 17 Ibera Project Green Winged Macaw Proyecto Ibera Retrieved 2020 12 17 Lowland Tapir to be reintroduced into Atlantic Forest Animalogic 30 June 2016 Retrieved 2023 06 20 Reintroduction of tapirs in the Atlantic Forest of Rio de Janeiro Labvis Retrieved 2023 06 20 Further reading editArmstrong D Hayward M Moro D Seddon P 2015 Advances in Reintroduction Biology of Australian and New Zealand Fauna CSIRO Publishing ISBN 9781486303014 Gorbunov Y N Dzybov D S Kuzmin Z E and Smirnov I A 2008 Methodological recommendations for botanic gardens on the reintroduction of rare and threatened plants Botanic Gardens Conservation International BGCI Shmaraeva A and Ruzaeva I 2009 Reintroduction of threatened plant species in Russia BG Journal Vol 6 No 1External links editIUCN SSC Re introduction Specialist Group IUCN SSC Re introduction Specialist Group s NEWSLETTER Re introduction NEWS IUCN SSC Reintroduction of Golden Eagle to Ireland BBC News release on Beaver reintroduction in England Scottish Beavers Network campaigning for Beaver reintroduction in Scotland Reintroduction of Przewalski s Horse to Mongolia Reintroduction of Great Bustard to England Reintroduction of Endangered Native Orchids into the Wild in El Valle de Anton Panama Reintroduction of endangered plant species in China Dipteronia dyeriana Magnolia odoratissima and M aromatica Euryodendron excelsum Chang Bretschneidera sinensis Hemsl Retrieved from https en wikipedia org w index php title Species reintroduction amp oldid 1211958077, wikipedia, wiki, book, books, library,

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