Sensitivity of predictive species distribution models to change in grain size
about
Microclimate Data Improve Predictions of Insect Abundance Models Based on Calibrated Spatiotemporal Temperatures.Global habitat suitability for framework-forming cold-water corals.Glacial Refugia and Future Habitat Coverage of Selected Dactylorhiza Representatives (Orchidaceae)Integrating sustainable hunting in biodiversity protection in Central Africa: hot spots, weak spots, and strong spotsAssessing current and projected suitable habitats for tree-of-heaven along the Appalachian TrailNiche conservatism and the future potential range of Epipactis helleborine (Orchidaceae)Creating larger and better connected protected areas enhances the persistence of big game species in the maputaland-pondoland-albany biodiversity hotspotCapture mechanism in Palaeotropical pitcher plants (Nepenthaceae) is constrained by climateComparing Distribution of Harbour Porpoises (Phocoena phocoena) Derived from Satellite Telemetry and Passive Acoustic Monitoring.Diversity and distribution of deep-sea shrimps in the Ross Sea region of Antarctica.Predicting the geographic distribution of a species from presence-only data subject to detection errors.Microclimatic challenges in global change biology.Dengue: recent past and future threatsThe Relative Impact of Climate Change on the Extinction Risk of Tree Species in the Montane Tropical Andes.Modelization of the Current and Future Habitat Suitability of Rhododendron ferrugineum Using Potential Snow AccumulationScale effects in species distribution models: implications for conservation planning under climate change.A tale of four "carp": invasion potential and ecological niche modeling.Protecting persistent dynamic oceanographic features: transboundary conservation efforts are needed for the critically endangered Balearic shearwater.Assessing the Spatial Scale Effect of Anthropogenic Factors on Species Distribution.Poor transferability of species distribution models for a pelagic predator, the grey petrel, indicates contrasting habitat preferences across ocean basinsModelling Hotspots for Invasive Alien Plants in India.Assessing the Global Risk of Establishment of Cydia pomonella (Lepidoptera: Tortricidae) using CLIMEX and MaxEnt Niche Models.Population-Scale Foraging Segregation in an Apex Predator of the North Atlantic.Multitemporal Modelling of Socio-Economic Wildfire Drivers in Central Spain between the 1980s and the 2000s: Comparing Generalized Linear Models to Machine Learning Algorithms.Local-scale models reveal ecological niche variability in amphibian and reptile communities from two contrasting biogeographic regions.Evidence of niche shift and global invasion potential of the Tawny Crazy ant, Nylanderia fulvaMapping monkeypox transmission risk through time and space in the Congo Basin.Testing the potential for predictive modeling and mapping and extending its use as a tool for evaluating management scenarios and economic valuation in the Baltic Sea (PREHAB).Abundance distributions for tree species in Great Britain: A two-stage approach to modeling abundance using species distribution modeling and random forest.Climatic niche of Selinum alatum (Apiaceae, Selineae), a new invasive plant species in Central Europe and its alterations according to the climate change scenarios: Are the European mountains threatened by invasion?Monitoring protected areas from space: A multi-temporal assessment using raptors as biodiversity surrogates.A synthesis of transplant experiments and ecological niche models suggests that range limits are often niche limits.Potential effects of climate change on members of the Palaeotropical pitcher plant family Nepenthaceae.Combining dispersal, landscape connectivity and habitat suitability to assess climate-induced changes in the distribution of Cunningham's skink, Egernia cunninghamiCodling Moth (Lepidoptera: Tortricidae) Establishment in China: Stages of Invasion and Potential Future Distribution.Model uncertainties do not affect observed patterns of species richness in the Amazon.The world is not flat: defining relevant thermal landscapes in the context of climate change.Do floral and niche shifts favour the establishment and persistence of newly arisen polyploids? A case study in an Alpine primrose.Mapping Global Potential Risk of Establishment of Rhagoletis pomonella (Diptera: Tephritidae) Using MaxEnt and CLIMEX Niche Models.Modeling the Geographic Distribution of Ixodes scapularis and Ixodes pacificus (Acari: Ixodidae) in the Contiguous United States.
P2860
Q27307845-57A313CA-0E5F-44DE-B892-48588AC1FF36Q28477787-2767CC0D-25F2-4A8F-B892-662E8C503858Q28607103-DF0E1955-F972-417E-8107-534DAD8D4A71Q28652642-790B1234-A87A-45BC-88D0-F4E61827036EQ28660186-58825FAA-C273-4812-9690-094E51D4E01EQ28674193-E6F48CDB-2C92-4CD9-83FA-B9BCF4477B50Q28681966-56856452-C01D-406E-8CEE-95B875E3885EQ29011267-09520FC4-DAFA-4227-8F64-4B841568DBC8Q30376932-B5A89D8F-70E4-4D3F-AB13-709760168DE8Q30434402-6CC19A62-B20D-475C-8EC3-CA92C2D9EA69Q30560284-35B33D71-BD07-4C29-A8E5-548DAA7973ABQ30627623-21F8E547-7159-4A67-BBDF-E2221C278829Q30894046-AA9AB56A-4460-4D32-9920-5964EFE0F550Q30980680-79F9AE0F-B6D6-4D15-B9C5-AEBE664C0A33Q31041128-7A7AD286-7BF1-4EA2-870F-5CD32415CB21Q33382952-18A0BB31-FE6A-484C-BFD6-F8E509735498Q33440548-1FFBA14A-4FB3-4B7D-886D-710368339927Q34270631-689A75EB-095E-4000-82EE-7D074B746F1FQ34795023-193AAECB-D380-4558-846F-782ABC84ADE6Q35154716-7C338C03-CC75-4784-8AB1-57B7A20FCFB8Q35730447-D4F792E0-3D93-4B43-9B4A-3D2266762118Q35809018-936C3D7C-BA21-4FC0-A397-016C9F96C296Q35966323-95CC4297-5A85-4882-9246-29AC4D2867B2Q36111607-E3BC258F-BDC3-41B1-846E-FBA03F252E52Q36168480-49CF38BA-CD85-4E29-ACC6-06C1B061764CQ36347954-931A90D2-320C-4022-9519-53E758C52C69Q37149726-8CCFCDF0-68B0-44AE-B4AB-EBF9C5B4AF37Q37465730-8D03997B-9B3D-4748-B95F-FD88AFA014FCQ37639213-B9D7237E-8534-426E-8AB5-8058F4066A8AQ38368216-42F38BE5-872E-4F3A-9774-66FC76558C5CQ38652720-15D13D07-2EE2-47F8-977B-78793C0A0981Q38816738-89F6F95A-6F22-47C8-8CFE-943665712809Q39031681-54C206BA-8B58-4195-9039-D4693A096674Q41618123-7A163D3A-C83B-4527-9FA2-1FBB15F6164AQ41867832-D210B9AC-A2E0-4D8D-9FF0-A7E8294759D4Q43122563-FB1A508D-B3BA-4BF6-8BAB-BC89686BA046Q43827382-37CC84AC-34E9-419F-9412-441F0C7C4178Q46439984-F9A9439D-90FC-4EED-85C6-038653046ACFQ46511992-1DCC1FD1-8124-4396-8F5B-259953685968Q47247457-BE2C9278-B662-4D0B-B206-2E99FCCB6EF3
P2860
Sensitivity of predictive species distribution models to change in grain size
description
article
@en
im Mai 2007 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в травні 2007
@uk
name
Sensitivity of predictive species distribution models to change in grain size
@en
Sensitivity of predictive species distribution models to change in grain size
@nl
type
label
Sensitivity of predictive species distribution models to change in grain size
@en
Sensitivity of predictive species distribution models to change in grain size
@nl
prefLabel
Sensitivity of predictive species distribution models to change in grain size
@en
Sensitivity of predictive species distribution models to change in grain size
@nl
P50
P1476
Sensitivity of predictive species distribution models to change in grain size
@en
P2093
Catherine H. Graham
P304
P356
10.1111/J.1472-4642.2007.00342.X
P577
2007-05-01T00:00:00Z