| scholarly article | Q13442814 |
| P356 | DOI | 10.1038/NCLIMATE1887 |
| P50 | author | Jeremy Vanderwal | Q43089838 |
| Julian Ramirez-Villegas | Q56424538 | ||
| P2093 | author name string | S. E. Williams | |
| J. Price | |||
| J. Lowe | |||
| R. Warren | |||
| A. Jarvis | |||
| T. J. Osborn | |||
| I. Atkinson | |||
| L. P. Shoo | |||
| J. A. Welbergen | |||
| P2860 | cites work | THE WCRP CMIP3 Multimodel Dataset: A New Era in Climate Change Research | Q56679747 |
| How difficult is it to recover from dangerous levels of global warming? | Q56779773 | ||
| Promising the future? Global change projections of species distributions | Q57019937 | ||
| A statistical explanation of MaxEnt for ecologists | Q57062660 | ||
| Rapid growth in CO2 emissions after the 2008–2009 global financial crisis | Q57160614 | ||
| Postponing emission reductions from 2020 to 2030 increases climate risks and long-term costs | Q58095154 | ||
| Increasing impacts of climate change upon ecosystems with increasing global mean temperature rise | Q58388916 | ||
| Extinction risk from climate change | Q22122497 | ||
| Terrestrial Ecoregions of the World: A New Map of Life on Earth | Q29543325 | ||
| Interpretation of high projections for global-mean warming | Q30656780 | ||
| Projected impacts of climate and land-use change on the global diversity of birds | Q31114668 | ||
| Climate change, elevational range shifts, and bird extinctions | Q31145639 | ||
| Global warming and extinctions of endemic species from biodiversity hotspots | Q33253619 | ||
| Projected climate-induced faunal change in the Western Hemisphere | Q33425991 | ||
| Consequences of climate change on the tree of life in Europe | Q33821912 | ||
| Future hotspots of terrestrial mammal loss | Q35119385 | ||
| Analysis of climate paths reveals potential limitations on species range shifts. | Q51674883 | ||
| Development and illustrative outputs of the Community Integrated Assessment System (CIAS), a multi-institutional modular integrated assessment approach for modelling climate change | Q53496352 | ||
| P433 | issue | 7 | |
| P921 | main subject | climate change | Q125928 |
| biodiversity | Q47041 | ||
| climate change mitigation | Q898653 | ||
| climate mitigation | Q83420266 | ||
| biodiversity loss | Q18466271 | ||
| P304 | page(s) | 678-682 | |
| P577 | publication date | 2013-05-12 | |
| P1433 | published in | Nature Climate Change | Q1970247 |
| P1476 | title | Quantifying the benefit of early climate change mitigation in avoiding biodiversity loss | |
| P478 | volume | 3 |
| Q26774655 | A Horizon Scan of Global Conservation Issues for 2016 |
| Q57080736 | A New Approach to Modelling the Relationship Between Annual Population Abundance Indices and Weather Data |
| Q111629895 | Ability of bryophytes to track areas of suitable climate depends on their habitat preferences |
| Q24577138 | Accelerating extinction risk from climate change |
| Q57027298 | Adapting systematic conservation planning for climate change |
| Q64057091 | Alternative reproductive adaptations predict asymmetric responses to climate change in lizards |
| Q57199119 | Assessing spatio-temporal priorities for species’ recovery in broad-scale dynamic landscapes |
| Q57080738 | Attributing changes in the distribution of species abundance to weather variables using the example of British breeding birds |
| Q30715905 | Avian community responses to variability in river hydrology |
| Q28604254 | Balance between climate change mitigation benefits and land use impacts of bioenergy: conservation implications for European birds |
| Q58613954 | Beyond the model: expert knowledge improves predictions of species' fates under climate change |
| Q91361925 | Biodiversity can benefit from climate stabilization despite adverse side effects of land-based mitigation |
| Q30392829 | Biological diversity in the patent system |
| Q101403026 | Bryophytes are predicted to lag behind future climate change despite their high dispersal capacities |
| Q112593849 | Can wildlife management units reduce land use/land cover change and climate change vulnerability? Conditions to encourage this capacity in Mexican municipalities |
| Q55013711 | Change of niche in guanaco (Lama guanicoe): the effects of climate change on habitat suitability and lineage conservatism in Chile. |
| Q56933457 | Characteristics of climate change refugia for Australian biodiversity |
| Q92779894 | Climate Change and Edaphic Specialists: Irresistible Force Meets Immovable Object? |
| Q31163557 | Climate change and national crop wild relative conservation planning |
| Q31128611 | Climate change in Lagos state, Nigeria: what really changed? |
| Q57000224 | Climate warming and atmospheric deposition affect seed viability of common juniper (Juniperus communis) via their impact on the nutrient status of the plant |
| Q73165761 | Climate-based prioritization of data collection for monitoring wintering birds in Latin America |
| Q30779996 | Climate-driven spatial mismatches between British orchards and their pollinators: increased risks of pollination deficits. |
| Q41618123 | Combining dispersal, landscape connectivity and habitat suitability to assess climate-induced changes in the distribution of Cunningham’s skink, Egernia cunninghami |
| Q30991179 | Conservation Status of North American Birds in the Face of Future Climate Change |
| Q28597717 | Current and Future Distribution of the Tropical Tree Cedrela odorata L. in Mexico under Climate Change Scenarios Using MaxLike |
| Q31164419 | Examining current or future trade-offs for biodiversity conservation in north-eastern Australia |
| Q30932137 | Expertly validated models and phylogenetically-controlled analysis suggests responses to climate change are related to species traits in the order lagomorpha |
| Q30751308 | Genetic diversity and ecological niche modelling of wild barley: refugia, large-scale post-LGM range expansion and limited mid-future climate threats? |
| Q53784887 | Geographical variation in species' population responses to changes in temperature and precipitation. |
| Q31042382 | Global effects of land use on local terrestrial biodiversity |
| Q63694157 | Global habitat loss and extinction risk of terrestrial vertebrates under future land-use-change scenarios |
| Q57038137 | Going beyond two degrees? The risks and opportunities of alternative options |
| Q92782522 | High-resolution and bias-corrected CMIP5 projections for climate change impact assessments |
| Q26776502 | Hot topics in biodiversity and climate change research |
| Q56623913 | IPCC reasons for concern regarding climate change risks |
| Q31004907 | Increased temperatures negatively affect Juniperus communis seeds: evidence from transplant experiments along a latitudinal gradient |
| Q57012867 | Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research |
| Q56959973 | Life history and spatial traits predict extinction risk due to climate change |
| Q31147074 | Life history trade-offs, the intensity of competition, and coexistence in novel and evolving communities under climate change. |
| Q51473106 | Links between plant species' spatial and temporal responses to a warming climate. |
| Q30826850 | Loss of frugivore seed dispersal services under climate change |
| Q28653174 | Macroevolutionary consequences of profound climate change on niche evolution in marine molluscs over the past three million years |
| Q99370864 | Mapping the co-benefits of climate change action to issues of public concern in the UK: a narrative review |
| Q31107686 | Mechanistic species distribution modelling as a link between physiology and conservation |
| Q34981869 | Microhabitats in the tropics buffer temperature in a globally coherent manner. |
| Q36327774 | Modeling technical change in climate analysis: evidence from agricultural crop damages. |
| Q31130358 | Modeling the impact of climate change on wild Piper nigrum (Black Pepper) in Western Ghats, India using ecological niche models. |
| Q98611612 | Non-linear changes in modelled terrestrial ecosystems subjected to perturbations |
| Q51147132 | Northern protected areas will become important refuges for biodiversity tracking suitable climates. |
| Q60328405 | Phylogenetic approaches reveal biodiversity threats under climate change |
| Q31146383 | Potential breeding distributions of U.S. birds predicted with both short-term variability and long-term average climate data |
| Q28652776 | Predicting the impacts of climate change on the potential distribution of major native non-food bioenergy plants in China |
| Q60551504 | Preventing species extinctions resulting from climate change |
| Q61449950 | Protecting rare and endangered species under climate change on the Qinghai Plateau, China |
| Q92502174 | Safety margins and adaptive capacity of vegetation to climate change |
| Q36178097 | Sensitivity of UK butterflies to local climatic extremes: which life stages are most at risk? |
| Q56834964 | The Effect of Applying Alternate IPCC Climate Scenarios to Marine Reserve Design for Range Changing Species |
| Q30717519 | The elephant, the blind, and the intersectoral intercomparison of climate impacts |
| Q30658798 | The future of species under climate change: resilience or decline? |
| Q35055275 | Thermal carrying capacity for a thermally-sensitive species at the warmest edge of its range |
| Q56741958 | Toward a global platform for linking soil biodiversity data |
| Q30822095 | Which host-dependent insects are most prone to coextinction under changed climates? |
| Q55451236 | Winter conditions influence biological responses of migrating hummingbirds |
| Q28596895 | Winter wren populations show adaptation to local climate |
Search more.