| scholarly article | Q13442814 |
| P50 | author | Mark J. Kennard | Q29605410 |
| Julian D. Olden | Q47930219 | ||
| N. LeRoy Poff | Q51283858 | ||
| Joshua J. Lawler | Q58065075 | ||
| P2860 | cites work | The velocity of climate change | Q22122204 |
| Extinction risk from climate change | Q22122497 | ||
| Ecological and Evolutionary Responses to Recent Climate Change | Q24289024 | ||
| Conservation biogeography of freshwater fishes: recent progress and future challenges | Q30048942 | ||
| A framework for debate of assisted migration in an era of climate change | Q31107138 | ||
| Climate change and moving species: furthering the debate on assisted colonization | Q31130225 | ||
| Fragmentation and flow regulation of the world's large river systems | Q31160124 | ||
| An assessment of invasion risk from assisted migration | Q31160363 | ||
| Ecology. Assisted colonization and rapid climate change | Q31163237 | ||
| An assessment of the published results of animal relocations | Q58067911 | ||
| Translocation Causes Extinction of a Local Population of the Freshwater ShrimpParatya australiensis | Q58258886 | ||
| A Review of Global Crayfish Introductions With Particular Emphasis On Two North American Species (Decapoda, Cambaridae) | Q58622011 | ||
| Barriers and flow as limiting factors in the spread of an invasive crayfish (Procambarus clarkii) in southern California streams | Q58622035 | ||
| Freshwater biodiversity: importance, threats, status and conservation challenges | Q33228874 | ||
| Climate change and freshwater biodiversity: detected patterns, future trends and adaptations in northern regions | Q33387005 | ||
| Assisted colonization is not a viable conservation strategy | Q33422710 | ||
| A review of climate-change adaptation strategies for wildlife management and biodiversity conservation | Q33472961 | ||
| The value of species and the ethical foundations of assisted colonization | Q33514084 | ||
| Latent extinction and invasion risk of crayfishes in the southeastern United States | Q33546053 | ||
| Progress in invasion biology: predicting invaders | Q33937649 | ||
| Optimal adaptive management for the translocation of a threatened species | Q34016732 | ||
| Developing the science of reintroduction biology | Q34613093 | ||
| Trait synergisms and the rarity, extirpation, and extinction risk of desert fishes | Q39321504 | ||
| Favorable fragmentation: river reservoirs can impede downstream expansion of riparian weeds | Q39407885 | ||
| Invasion versus isolation: trade-offs in managing native salmonids with barriers to upstream movement | Q50757322 | ||
| Directions in reintroduction biology. | Q51696994 | ||
| Adapting to climate change: is there scope for ecological management in the face of a global threat? | Q54104176 | ||
| Invasion success and threat status: two sides of a different coin? | Q55328252 | ||
| Stable isotope evidence for the food web consequences of species invasions in lakes | Q55842207 | ||
| Small fish, big fish, red fish, blue fish: size-biased extinction risk of the world's freshwater and marine fishes | Q56287438 | ||
| Assisted colonization under the U.S. Endangered Species Act | Q56336120 | ||
| Ecological Restoration and Global Climate Change | Q56554778 | ||
| Downstream hydrologic and geomorphic effects of large dams on American rivers | Q56687730 | ||
| Managed relocation: a nuanced evaluation is needed | Q56768844 | ||
| Ecological Benefits of Reduced Hydrologic Connectivity in Intensively Developed Landscapes | Q56769063 | ||
| Scientific uncertainty and the assessment of risks posed by non-native freshwater fishes | Q56772171 | ||
| The characteristics of invasive fishes: what has been learned so far? | Q56776607 | ||
| Biogeographic barriers, connectivity and homogenization of freshwater faunas: it's a small world after all | Q56778271 | ||
| Protected area needs in a changing climate | Q57021314 | ||
| Landscape fluidity - a unifying perspective for understanding and adapting to global change | Q57269477 | ||
| The Risks of Assisted Colonization | Q57564586 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | fresh water | Q102192 |
| invasion management | Q113019190 | ||
| conservation management | Q121819150 | ||
| P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
| P1104 | number of pages | 8 | |
| P304 | page(s) | 40-47 | |
| P577 | publication date | 2011-02-01 | |
| P1433 | published in | Conservation Biology | Q1127305 |
| P1476 | title | Challenges and opportunities in implementing managed relocation for conservation of freshwater species | |
| P478 | volume | 25 |
| Q56420573 | A Framework for Assessing the Feasibility of Native Fish Conservation Translocations: Applications to Threatened Bull Trout |
| Q56421005 | An Experimental Test of Novel Ecological Communities of Imperiled and Invasive Species |
| Q34089455 | Asian river fishes in the Anthropocene: threats and conservation challenges in an era of rapid environmental change |
| Q34534643 | Assessing and managing freshwater ecosystems vulnerable to environmental change. |
| Q56433074 | Can translocated native fishes retain their trophic niche when confronted with a resident invasive? |
| Q35535897 | Comparing the ecological impacts of native and invasive crayfish: could native species' translocation do more harm than good? |
| Q56938793 | Conservation implications of establishment success of the Critically Endangered Twee River redfin ‘Pseudobarbus’ erubescens (Skelton, ) in an artificial impoundment in South Africa |
| Q56924713 | Defining conservation priorities for freshwater fishes according to taxonomic, functional, and phylogenetic diversity |
| Q57203378 | Development and evaluation of species distribution models for fourteen native central U.S. fish species |
| Q56924728 | Ecological Impacts of Nonnative Freshwater Fishes |
| Q58388891 | Ecosystem impacts and adaptation |
| Q30607373 | Effects of climate change, invasive species, and disease on the distribution of native European crayfishes |
| Q38700647 | Experimental test of genetic rescue in isolated populations of brook trout. |
| Q106548455 | Hydrologic characteristics, food resource abundance, and spatial variation in stream assemblages |
| Q59233004 | Incorporating climate change into recovery planning for threatened vertebrate species in southwestern Australia |
| Q30706431 | Incorporating climate science in applications of the US endangered species act for aquatic species |
| Q90041982 | Influence of Land-Use Classes on the Functional Structure of Fish Communities in Southern Brazilian Headwater Streams |
| Q56506967 | Intentional Fragmentation as a Management Strategy in Aquatic Systems |
| Q47371601 | Interacting effects of translocation, artificial propagation, and environmental conditions on the marine survival of Chinook salmon from the Columbia River, Washington, U.S.A. |
| Q56594765 | Local extinction and colonisation in native and exotic fish in relation to changes in land use |
| Q56752251 | Managed Relocation: Integrating the Scientific, Regulatory, and Ethical Challenges |
| Q56420578 | Performance of Juvenile Cutthroat Trout Translocated as Embryos from Five Populations into a Common Habitat |
| Q107468665 | Predicting the effects of climate change on future freshwater fish diversity at global scale |
| Q56924753 | Reframing the debate over assisted colonization |
| Q31143376 | Setting spatial conservation priorities despite incomplete data for characterizing metapopulations |
| Q59240783 | Small and impoverished regional species pools constrain colonisation of restored river reaches by fishes |
| Q93064670 | Species traits and reduced habitat suitability limit efficacy of climate change refugia in streams |
| Q56516200 | Towards the conservation of freshwater fish: Iberian Rivers as an example of threats and management practices |
| Q30614590 | Translocation of imperiled species under changing climates |
| Q36276755 | Vulnerability of European freshwater catchments to climate change. |
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