Do they? How do they? WHY do they differ? On finding reasons for differing performances of species distribution models
about
Testing the Role of Climate Change in Species Decline: Is the Eastern Quoll a Victim of a Change in the Weather?Perspectives on modelling the distribution of ticks for large areas: so far so good?Species Distribution 2.0: An Accurate Time- and Cost-Effective Method of Prospection Using Street View ImageryGlobal habitat suitability for framework-forming cold-water corals.Mapping the geographical distribution of lymphatic filariasis in ZambiaWhere to Dig for Fossils: Combining Climate-Envelope, Taphonomy and Discovery ModelsGlacial Refugia and Future Habitat Coverage of Selected Dactylorhiza Representatives (Orchidaceae)A Short Guide to the Climatic Variables of the Last Glacial Maximum for BiogeographersMapping current and potential distribution of non-native Prosopis juliflora in the Afar region of EthiopiaAssessing current and projected suitable habitats for tree-of-heaven along the Appalachian TrailNiche conservatism and the future potential range of Epipactis helleborine (Orchidaceae)Predicting the Potential Distribution of Polygala tenuifolia Willd. under Climate Change in China.Assessing biodiversity loss due to land use with Life Cycle Assessment: are we there yet?Geographic selection bias of occurrence data influences transferability of invasive Hydrilla verticillata distribution models.Limitations to the Use of Species-Distribution Models for Environmental-Impact Assessments in the AmazonPotential stream density in Mid-Atlantic US watershedsCan Static Habitat Protection Encompass Critical Areas for Highly Mobile Marine Top Predators? Insights from Coastal East Africa.Predicting the Spatial Distribution of Wolf (Canis lupus) Breeding Areas in a Mountainous Region of Central Italy.Diversity and distribution of deep-sea shrimps in the Ross Sea region of Antarctica.Modeling plant species distributions under future climates: how fine scale do climate projections need to be?Uncertainty in assessing the impacts of global change with coupled dynamic species distribution and population models.Evaluating the effectiveness of conservation site networks under climate change: accounting for uncertainty.Fit-for-purpose: species distribution model performance depends on evaluation criteria - Dutch Hoverflies as a case study.Modelling the distribution of Aspalathus linearis (Rooibos tea): implications of climate change for livelihoods dependent on both cultivation and harvesting from the wildVulnerability of breeding waterbirds to climate change in the Prairie Pothole Region, U.S.A.Predicting the conservation status of data-deficient species.A new tool for exploring climate change induced range shifts of conifer species in China.Improving effectiveness of systematic conservation planning with density data.Projecting boreal bird responses to climate change: the signal exceeds the noise.Use of Anecdotal Occurrence Data in Species Distribution Models: An Example Based on the White-Nosed Coati (Nasua narica) in the American Southwest.Projecting distribution of the overwintering population of Sogatella furcifera (Hemiptera: Delphacidae), in Yunnan, China with analysis on key influencing climatic factors.Choice of baseline climate data impacts projected species' responses to climate change.Unpacking the mechanisms captured by a correlative species distribution model to improve predictions of climate refugia.Functional traits help to explain half-century long shifts in pollinator distributionsPotential Implications of Climate Change on Aegilops Species Distribution: Sympatry of These Crop Wild Relatives with the Major European Crop Triticum aestivum and Conservation IssuesUS forest response to projected climate-related stress: a tolerance perspective.Integrating mechanistic and empirical model projections to assess climate impacts on tree species distributions in northwestern North America.Potential breeding distributions of U.S. birds predicted with both short-term variability and long-term average climate data.Evaluation of the impacts of climate change on disease vectors through ecological niche modelling.Anticipating knowledge to inform species management: predicting spatially explicit habitat suitability of a colonial vulture spreading its range.
P2860
Q27304739-7F6F402B-80EC-4808-899C-6C5B2096C1DFQ27329530-1D7AB539-BE25-44BA-97CD-6D54297EA839Q27331077-13FB0AA7-41C0-427C-87A2-2A5ED5130778Q28477787-B56FDD96-B269-4250-ABBC-9FA128A495E7Q28539948-CED3304B-DB88-4648-990C-762F73BBDC36Q28601662-CE22C35E-B8A0-4EF3-9A7D-D0245D616855Q28607103-CF8EDECE-E3A0-4F26-9A59-A03549CF5511Q28648502-3F93BB36-F6C6-4293-902E-4E3188EB16CEQ28652246-8A43C451-AC18-4C7A-B5CB-9EC94660AA05Q28660186-18B370D9-9A2A-4791-93F0-E7178E1F4F81Q28674193-44AD869D-CD5A-4E17-84F5-AA26ADFC9DA2Q30381351-85D1E00A-95B8-443D-9329-2D449E9BA6A6Q30389639-02CE80D7-323E-4E11-B851-BE106CF89E09Q30390393-CB275955-692E-4746-827A-5A649284A138Q30392638-C82CF56E-E556-4DA5-9919-4690F3BF7926Q30393178-6D711680-16AB-4AB3-AC01-18F10ECF67AEQ30406403-2587ED1F-7593-4B53-935A-923ADAE8B681Q30409714-4C2387BE-CDD4-4EDF-A816-752D1E110217Q30434402-71ABC508-4BF9-4827-A2B2-6B74CCFE5A89Q30601259-37CF357C-5EAD-430D-ABFB-746613C82AC5Q30601504-FD3012EF-2F63-45F7-8AA5-AC95B804D59CQ30601817-DC8F8058-80A0-4842-856F-13D6E2BBA904Q30629738-FA988395-6B0A-42E7-BD02-3410AD42C1D2Q30822072-35113921-BAE2-4068-B9FD-181166952D86Q30830957-9F197175-068C-4D73-BBB4-6CF9AE29742BQ30842853-5AF90747-3D7D-4031-9BAE-07D6A12962F9Q30856364-0CDD0ABC-3C6A-4A5A-A3D7-C49E9AE716ECQ30931865-F06FF690-7CD5-4266-82F7-356385A91811Q30985932-DE0A8DA0-E76E-48A7-9AF6-E21E9BDB7399Q31009039-F5148610-F997-4E3F-9F70-337DA3A0B5F7Q31009966-7D2083B3-8F0D-430A-942A-6ED4E74BCBC9Q31053999-8A0904D3-5B51-48C1-821F-581A9395DF28Q31056083-0F2164AF-FA5F-4674-96CC-AB73135ABA57Q31077499-80FC7C16-49FC-4C5C-BFC9-5CFC99F1F41CQ31082553-24692CCE-D7DE-4073-A562-1E9A1E0221FDQ31084826-B65AED17-F564-4A5A-B559-920400D2942FQ31143074-9F396E11-C0C5-45F3-80AA-0AFD59013E35Q31146383-7D0353A7-F5F2-438B-BDFF-46DE080C9530Q31148817-556B1751-1D69-4D81-8B27-E520C5F7A4C5Q33682053-5B7829AB-C354-4EF2-A3A6-708BA3005663
P2860
Do they? How do they? WHY do they differ? On finding reasons for differing performances of species distribution models
description
article
@en
im April 2009 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 2009
@uk
name
Do they? How do they? WHY do t ...... of species distribution models
@en
Do they? How do they? WHY do t ...... of species distribution models
@nl
type
label
Do they? How do they? WHY do t ...... of species distribution models
@en
Do they? How do they? WHY do t ...... of species distribution models
@nl
prefLabel
Do they? How do they? WHY do t ...... of species distribution models
@en
Do they? How do they? WHY do t ...... of species distribution models
@nl
P2860
P1433
P1476
Do they? How do they? WHY do t ...... of species distribution models
@en
P2093
Catherine H. Graham
P2860
P356
10.1111/J.1600-0587.2008.05505.X
P50
P577
2009-04-03T00:00:00Z