Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
about
Species-area relationships are controlled by species traitsScaling up functional traits for ecosystem services with remote sensing: concepts and methodsAltitude acts as an environmental filter on phylogenetic composition, traits and diversity in bee communitiesHistorical changes in northeastern US bee pollinators related to shared ecological traits.Sustained functional composition of pollinators in restored pastures despite slow functional restoration of plants.Influence of landscape context on the abundance and diversity of bees in Mediterranean olive groves.Influence of habitat complexity and landscape configuration on pollination and seed-dispersal interactions of wild cherry trees.Trait-specific responses of wild bee communities to landscape composition, configuration and local factorsInsect pollination enhances seed yield, quality, and market value in oilseed rape.Bees use the taste of pollen to determine which flowers to visit.Trait-dependent response of dung beetle populations to tropical forest conversion at local and regional scales.Environmental factors driving the effectiveness of European agri-environmental measures in mitigating pollinator loss--a meta-analysis.Habitat loss alters the architecture of plant--pollinator interaction networks.Distance from forest edge affects bee pollinators in oilseed rape fields.Spatial heterogeneity regulates plant-pollinator networks across multiple landscape scalesTesting projected wild bee distributions in agricultural habitats: predictive power depends on species traits and habitat type.Conservation of Pollinators in Traditional Agricultural Landscapes - New Challenges in Transylvania (Romania) Posed by EU Accession and Recommendations for Future Research.Impacts of neonicotinoid use on long-term population changes in wild bees in England.Evaluating the influence of life-history characteristics on genetic structure: a comparison of small mammals inhabiting complex agricultural landscapes.Ecological intensification to mitigate impacts of conventional intensive land use on pollinators and pollination.Responses of insect herbivores and herbivory to habitat fragmentation: a hierarchical meta-analysis.Life-history traits and landscape characteristics predict macro-moth responses to forest fragmentation.Mass-flowering crops dilute pollinator abundance in agricultural landscapes across Europe.Insect density-plant density relationships: a modified view of insect responses to resource concentrations.Density of insect-pollinated grassland plants decreases with increasing surrounding land-use intensity.Roles of scale, matrix, and native habitat in supporting a diverse suburban pollinator assemblage.Drastic historic shifts in bumble-bee community composition in Sweden.Differentiated use of pollen sources by two sympatric species of oil-collecting bees (Hymenoptera: Apidae)Effects of Plant Diversity, Vegetation Composition, and Habitat Type on Different Functional Trait Groups of Wild Bees in Rural Beijing.Influence of the honeybee and trait similarity on the effect of a non-native plant on pollination and network rewiringExtent of Kentucky Bluegrass and Its Effect on Native Plant Species Diversity and Ecosystem Services in the Northern Great Plains of the United StatesImpact of landscape alteration and invasions on pollinators: a meta-analysisDeveloping European conservation and mitigation tools for pollination services: approaches of the STEP (Status and Trends of European Pollinators) projectEffect of habitat area and isolation on plant trait distribution in European forests and grasslandsTraits related to species persistence and dispersal explain changes in plant communities subjected to habitat lossThe winners and losers of land use intensification: pollinator community disassembly is non-random and alters functional diversityNational patterns of functional diversity and redundancy in predatory ground beetles and bees associated with key UK arable cropsContrasting effects of habitat area and connectivity on evenness of pollinator communitiesLinking life history traits to pollinator loss in fragmented calcareous grasslandsThe effect of fragment area on site-level biodiversity
P2860
Q21134571-36DCE540-801B-452B-9BEB-F363878FB49DQ26744157-497B38B7-9F56-4F01-BA8F-85047752BB8AQ28715010-F4CB51DC-D171-411E-816C-AB2E76E9403BQ30597944-5A5F2F41-9499-47D7-8008-709FAC5A0D34Q33789060-C09CB71E-461C-43CA-9A0A-86FAF2699D7CQ33860553-1E429EEF-A69F-44E8-892F-15D027274AECQ33983621-D075097B-A289-49C2-BD69-64E1E611EDB4Q34066073-EFDA4A11-8200-4850-A704-C1BFF33C2A01Q34152300-60ED9DCE-D6A1-491C-854C-505B4BF69E6BQ34533906-DC25D31B-A4FB-4BB0-95CD-641727DDF205Q34677609-DF587CF4-3633-41F7-AF43-057566963035Q34743234-3FE9EEC3-4377-4D44-B15F-63B44A218267Q35111646-0048A527-B339-4D79-84C9-5D4705F35DB4Q35122222-32B4F7F1-3BA8-40F3-B912-570742CD89BCQ35345955-BEEA8B63-E7F4-44E2-BC41-59A900A74E87Q35868128-F8238B53-275E-49A2-A103-9FCE80599B87Q36048086-BC7B67DD-2175-4DC9-BB1F-087CAB25BEADQ36105001-0E845FBE-3F11-4BA1-B483-6D8468B36F6FQ36137945-93FC0F90-807C-4BFA-9DBD-4E2626CDEB36Q36324180-85A81D34-0F01-41EC-86C5-6C2CD587170FQ39098461-75AB2A9E-AD1B-4D6F-9222-93189959013BQ42007155-46C15908-3C02-454B-98FD-0FD39055098DQ42392628-F851EAAC-C068-4A08-9D9A-E12AD78F3387Q42610628-DF5383A6-A815-49BD-AA4E-822AC2F4D503Q46864602-D5B5362D-8B97-4C4A-967F-CE3B63B69680Q51543983-7D89608C-EAA7-4DAA-AF77-668F31C2706AQ51595512-2707CBC8-DFD5-4CBF-BBF5-DEC093029F18Q54709807-19A879D6-0BBF-49F7-8A7A-D07D83AB9DBDQ55518779-FC70A9CF-C36A-469B-9195-E5843A70F217Q56359330-2F73A5F4-770D-480D-AF6E-AA9387BEA4FBQ56447157-5FC81C0E-7CA8-4781-956C-06EA10D77087Q56556257-740735B4-848B-4C69-BB2E-BB77F355413FQ56765093-C378900F-F3B0-421A-A06A-C29B889F78EBQ56817088-E0898868-E4C8-45AA-AD96-16921E2CF005Q56817108-B428B769-E132-46C1-A63B-F9714FFF23D4Q56937054-8EC246E4-213D-4C4E-88B9-67E21201BD1CQ56973346-6A277046-A569-48FA-A4B2-F932D6D093D8Q57001749-8D1086F7-0A6C-4C19-AECE-DCB2A4705281Q57001832-CF4A55A2-F2DD-4D9F-82C1-2EEC32D2F004Q57006519-2D172005-1770-4103-A527-7685B02254A7
P2860
Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
@en
Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
@nl
type
label
Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
@en
Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
@nl
prefLabel
Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
@en
Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
@nl
P2093
P2860
P50
P356
P1476
Dispersal capacity and diet breadth modify the response of wild bees to habitat loss.
@en
P2093
Birgit Meyer
Erik Ockinger
Jacobus C Biesmeijer
Simon G Potts
Stuart P M Roberts
P2860
P304
P356
10.1098/RSPB.2009.2221
P577
2010-03-10T00:00:00Z