Selecting areas for species persistence using occurrence data
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Survival without recovery after mass extinctions.Indigenous knowledge and science unite to reveal spatial and temporal dimensions of distributional shift in wildlife of conservation concernImpacts of climate change on the distribution of Sichuan snub-nosed monkeys (Rhinopithecus roxellana) in Shennongjia area, China.Survival of Norway spruce remains higher in mixed stands under a dryer and warmer climate.Matching species traits to projected threats and opportunities from climate changeImpacts of climate change on distributions and diversity of ungulates on the Tibetan Plateau.Priority areas for anuran conservation using biogeographical data: a comparison of greedy, rarity, and simulated annealing algorithms to define reserve networks in cerrado.Spatial predictions at the community level: from current approaches to future frameworks.Applications of ecological niche modeling for species delimitation: a review and empirical evaluation using day geckos (Phelsuma) from Madagascar.Catastrophic extinctions follow deforestation in Singapore.Objectives for multiple-species conservation planning.Value for money: protecting endangered species on Danish heathland.Planning for persistence in marine reserves: a question of catastrophic importance.The legacy of logging--estimating arboreal lichen occurrence in a boreal multiple-use landscape on a two century scale.Conservation of the patchily distributed and declining purple-crowned fairy-wren (Malurus coronatus coronatus) across a vast landscape: the need for a collaborative landscape-scale approach.Does probability of occurrence relate to population dynamics?Potential distribution of the endangered endemic lizard Liolaemus lutzae Mertens, 1938 (Liolaemidae): are there other suitable areas for a geographically restricted species?Using kernels and ecological niche modeling to delineate conservation areas in an endangered patch-breeding phenotype.Incorporating interspecific competition into species-distribution mapping by upward scaling of small-scale model projections to the landscapePotential distribution and conservation of the Colobosauroides carvalhoi Soares and Caramaschi, 1998: a rare and endemic lizard of Northeast Brazil.The Cross River gorillas (Gorilla gorilla diehli) at Mawambi Hills, South-West Cameroon: habitat suitability and vulnerability to anthropogenic disturbance.Species distribution models as a tool to estimate reproductive parameters: a case study with a passerine bird species.The interplay of various sources of noise on reliability of species distribution models hinges on ecological specialisation.The factorial decomposition of the Mahalanobis distances in habitat selection studies.The role of light, soil and human factors on the probability of occurrence of an invasive and three native plant species in coastal transitions of coastal Mississippi, USAUse of niche models in invasive species risk assessmentsGeographical patterns in prediction errors of species distribution modelsIntegrating variability in detection probabilities when designing wildlife surveys: a case study of amphibians from south-eastern AustraliaAnalysing and mapping species range dynamics using occupancy modelsBayesian logistic regression for presence-only dataPerformance of Sub-Saharan Vertebrates as Indicator Groups for Identifying Priority Areas for ConservationGeographic range determinants of two commercially important marine molluscsMulti-model climate projections for biodiversity risk assessmentsEffects of incorporating spatial autocorrelation into the analysis of species distribution dataEffectiveness of a large reserve network in protecting freshwater biodiversity: a test for the Iberian PeninsulaClimate change, species range shifts and dispersal corridors: an evaluation of spatial conservation modelsRepresenting taxonomic, phylogenetic and functional diversity: new challenges for Mediterranean marine-protected areasShifting protected areas: scheduling spatial priorities under climate changeConsequences of spatial autocorrelation for niche-based modelsHow well do Important Bird Areas represent species and minimize conservation conflict in the tropical Andes?
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P2860
Selecting areas for species persistence using occurrence data
description
article
@en
im Dezember 2000 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в грудні 2000
@uk
name
Selecting areas for species persistence using occurrence data
@en
Selecting areas for species persistence using occurrence data
@nl
type
label
Selecting areas for species persistence using occurrence data
@en
Selecting areas for species persistence using occurrence data
@nl
prefLabel
Selecting areas for species persistence using occurrence data
@en
Selecting areas for species persistence using occurrence data
@nl
P1476
Selecting areas for species persistence using occurrence data
@en
P2093
Paul H Williams
P304
P356
10.1016/S0006-3207(00)00074-4
P577
2000-12-01T00:00:00Z