about
The role of biotic interactions in shaping distributions and realised assemblages of species: implications for species distribution modellingPredictive habitat modelling of humpback (Megaptera novaeangliae) and Antarctic minke (Balaenoptera bonaerensis) whales in the Southern Ocean as a planning tool for seismic surveysQuaternary coral reef refugia preserved fish diversity.Forecasted coral reef decline in marine biodiversity hotspots under climate change.Archived DNA reveals fisheries and climate induced collapse of a major fisherySpectral measures and mixed models as valuable tools for investigating controls on land surface phenology in high arctic GreenlandDo pseudo-absence selection strategies influence species distribution models and their predictions? An information-theoretic approach based on simulated data.Spatiotemporal SNP analysis reveals pronounced biocomplexity at the northern range margin of Atlantic cod Gadus morhua.Combining food web and species distribution models for improved community projections.Horizontal, but not vertical, biotic interactions affect fine-scale plant distribution patterns in a low-energy system.Climate change, non-indigenous species and shipping: assessing the risk of species introduction to a high-Arctic archipelagoHerbicide and fertilizers promote analogous phylogenetic responses but opposite functional responses in plant communitiesPast climate-driven range shifts and population genetic diversity in arctic plantsSuitability, success and sinks: how do predictions of nesting distributions relate to fitness parameters in high arctic waders?Novel methods improve prediction of species’ distributions from occurrence dataQ57016511Testing species distribution models across space and time: high latitude butterflies and recent warmingProjecting future distribution of the seagrass Zostera noltii under global warming and sea level riseKnown and predicted African winter distributions and habitat use of the endangered Basra reed warbler (Acrocephalus griseldis) and the near-threatened cinereous bunting (Emberiza cineracea)Incorporating dominant species as proxies for biotic interactions strengthens plant community modelsPredicting the distribution of deep-sea vulnerable marine ecosystems using high-resolution data: Considerations and novel approachesImpact of biotic interactions on biodiversity varies across a landscape
P50
Q28709304-1E5F5608-478D-4920-863F-FC25E4A1A12EQ29038887-42BC394C-02A4-410D-9F7B-C91B82449B69Q30827652-DEF4EC0C-35C1-4799-B6EA-AA23243CD3DBQ30885582-4CB77CD0-9463-4B37-A514-2C9CCA3B5C6DQ31009320-27DDE371-A95B-40FE-9C3A-653290058388Q33299593-6F7230CC-EB89-462A-9E3C-4778503C9D93Q33434929-867D73A9-C96F-4DB8-AFB2-8017B008A47EQ34780203-302B682C-FBD2-4436-81C2-6526D1F1AEBBQ35068090-EF6EEBE4-A3D9-400C-82E2-77845C90161AQ43995682-D08FB2A9-D396-45F9-8C33-D408CC9A5CBBQ56459567-81025124-CB45-4782-9A47-657818A18D67Q56999336-4109EC88-4C1A-4B7F-96C0-FFAFA08F1E9FQ57013756-D0B26CB9-652F-4404-B91D-F3B63CC02FD6Q57013974-14BC8155-5FA2-43A9-B793-AD48AD6D2AF3Q57014231-E66353D4-C866-4472-AA10-A8A36B43714FQ57016511-A57025E8-765C-42B5-A327-E4EED456B368Q59464987-7A0DB0A6-023D-4C34-90CC-410652F7F226Q59987541-885D6356-80A8-4969-A8B9-BC5C404FA21CQ60147858-9FD3457A-E2E7-4609-8E9E-D9B9157D458DQ61465360-22AF4D27-ECA5-462D-A325-9BA957AB8F8CQ61465363-0F4D273D-869A-41F2-A564-5675EA09B1AAQ61465440-3C23B8B5-AD94-4375-A492-76826DCC11CB
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Mary S. Wisz
@ast
Mary S. Wisz
@en
Mary S. Wisz
@es
Mary S. Wisz
@nl
Mary S. Wisz
@sl
type
label
Mary S. Wisz
@ast
Mary S. Wisz
@en
Mary S. Wisz
@es
Mary S. Wisz
@nl
Mary S. Wisz
@sl
altLabel
Wisz M
@en
prefLabel
Mary S. Wisz
@ast
Mary S. Wisz
@en
Mary S. Wisz
@es
Mary S. Wisz
@nl
Mary S. Wisz
@sl
P106
P1153
23037763700
P21
P31
P496
0000-0002-5357-6367