Variation in timing and abundance of flowering by Delphinium barbeyi Huth (Ranunculaceae): the roles of snowpack, frost, and La Niña, in the context of climate change.
about
Climate change and the optimal flowering time of annual plants in seasonal environments.Climate warming alters effects of management on population viability of threatened species: results from a 30-year experimental study on a rare orchid.Maintenance of temporal synchrony between syrphid flies and floral resources despite differential phenological responses to climate.Greater phenological sensitivity to temperature on higher Scottish mountains: new insights from remote sensing.Snow cover and extreme winter warming events control flower abundance of some, but not all species in high arctic Svalbard.Fruitful factors: what limits seed production of flowering plants in the alpine?Climate warming could increase recruitment success in glacier foreland plants.Contrasting effects of warming and increased snowfall on Arctic tundra plant phenology over the past two decades.Reproductive and physiological responses to simulated climate warming for four subalpine species.Effects of climate change on phenology, frost damage, and floral abundance of montane wildflowers.Reproductive limits of a late-flowering high-mountain Mediterranean plant along an elevational climate gradient.Flowering phenology in subalpine meadows: does climate variation influence community co-flowering patterns?Spatial and temporal functional changes in alpine summit vegetation are driven by increases in shrubs and graminoids.Early spring, severe frost events, and drought induce rapid carbon loss in high elevation meadows.Phenological response of grassland species to manipulative snowmelt and drought along an altitudinal gradientPhenological responses to climate change do not exhibit phylogenetic signal in a subalpine plant community.How endangered is sexual reproduction of high-mountain plants by summer frosts? Frost resistance, frequency of frost events and risk assessment.Resource depletion, pollen coupling, and the ecology of mast seeding.When divergent life histories hybridize: insights into adaptive life-history traits in an annual weed.Landscape genetics of alpine-snowbed plants: comparisons along geographic and snowmelt gradients.Phylogenetic conservatism and trait correlates of spring phenological responses to climate change in northeast China.Direct and indirect effects of episodic frost on plant growth and reproduction in subalpine wildflowers.Disentangling the mechanisms behind winter snow impact on vegetation activity in northern ecosystems.Site fidelity by bees drives pollination facilitation in sequentially blooming plant species.Masting promotes individual- and population-level reproduction by increasing pollination efficiency.Rainfall-induced changes in food availability modify the spring departure programme of a migratory bird.Winter conditions influence biological responses of migrating hummingbirdsAssessing the impact of the invasive buff-tailed bumblebee (Bombus terrestris) on the pollination of the native Chilean herb Mimulus luteusThe use of pollination networks in conservation1This article is part of a Special Issue entitled “Pollination biology research in Canada: Perspectives on a mutualism at different scales”TEMPORAL AND SPATIAL VARIATION IN POLLINATION OF A MONTANE HERB: A SEVEN-YEAR STUDYPlastic Population Effects and Conservative Leaf Traits in a Reciprocal Transplant Experiment Simulating Climate Warming in the HimalayasThe 2007 Eastern US Spring Freeze: Increased Cold Damage in a Warming World?Emergence of a mid-season period of low floral resources in a montane meadow ecosystem associated with climate changeChanges in flowering and abundance of Delphinium nuttallianum (Ranunculaceae) in response to a subalpine climate warming experimentDoes seed production of spring ephemerals decrease when spring comes early?An examination of synchrony between insect emergence and flowering in Rocky Mountain meadowsPollen limitation and cleistogamy in subalpine Viola praemorsaEvidence of enhanced freezing damage in treeline plants during six years of CO2 enrichment and soil warmingAdvanced snowmelt causes shift towards positive neighbour interactions in a subarctic tundra community
P2860
Q30601170-C5932FE3-441E-4246-BE7E-B212E6DBF1DFQ30601934-E4BF1ADD-AB89-495C-82CA-65514E003B8DQ30620963-A5A07FAB-94BA-4700-A5C2-C5FFB28BF576Q30623917-C1FFB478-0707-461E-9ECA-9D14D9636573Q30764334-C2FDD2DA-1D5D-4EDA-B7A7-EA8A27DEB291Q30872947-969B8436-E1F0-490C-B7E6-4482AC3898B2Q30978162-E3F5995F-5F72-40D0-AAF8-7738D39A92B4Q30983105-5AAD9521-FB5D-4309-B20E-37EBCE431F1AQ31086209-05503AE1-1662-446B-AA24-EC2E5E15410DQ31152481-A34CD2C7-46F7-4D2D-BA66-20745DDBF778Q33268224-5DAFC967-0922-4481-B84B-85E023304C6FQ33555521-73BAC586-CC1E-4399-88D7-4B7B2207CCB0Q33685368-0271B51C-4065-4BD1-9B6D-4CA9C831AD30Q34160120-9F9DF7C6-5B5B-4238-8C1A-B20612BC9DF4Q34481784-1EDA4E15-ABB0-45BE-95B6-8D755AC2ED81Q35736960-8379F636-425B-4D54-9EB3-D0848C268A00Q36689272-8AEB3E37-A52E-41B1-BDC6-2AB531CC15B4Q38216823-7845D3C5-8A43-4177-8CA9-7EBBF5EFCC0FQ39107921-2455E1A5-A8FB-4E1C-A85A-328CA0C789CDQ39128677-E830159E-E8B8-479D-8A03-60EFC78826DBQ41636214-409C8B40-84E9-4E98-A00A-C1CAF7C2CC1EQ44874723-8688F9FE-D9B3-478A-8A21-1F31F467AB3AQ46289972-51B93C94-C0AE-4FBA-B4D3-5C3EAAC17EF3Q46510909-242E0DDB-6933-4401-A4EF-7DDD2FA0642CQ46879075-CD750609-DBD9-41E3-A31D-D938BABC0DF0Q51161541-9A4E8C7F-FE59-4CF9-B76F-AC11E7E02F69Q55451236-72DD3F4F-727F-406A-BF1D-B958DA7520CAQ56156956-235B8EAC-8795-41E5-9A16-8BCC48AAAA59Q56556666-371F67F3-1F0E-4484-B3A5-BA414863386DQ57045396-F07A9316-2524-4873-A4F4-BF4CD7472BD7Q57174147-C9D7F8D2-C17E-480D-A3B7-3CF287F233BBQ57263248-AE6A3A85-16E2-48BB-89EF-FE5B88697143Q58069704-BA5F9653-9AEC-4C8D-9474-122E354CD1F8Q58069733-B7C38A90-B3FE-427E-8C99-DAEC7A63188EQ58259754-CF6298B5-2461-4B75-BCE9-9F4B2FEE7D0FQ58307203-E2A5B452-A26B-4861-85CB-C7478EE59647Q58307209-90A73EC9-4E76-4E2A-9A28-90667D6C4106Q59274346-2BCEBC40-2D03-4071-9E8D-1CBC26E41623Q59274431-71D19D19-9D92-4926-92E4-8D26A303D61B
P2860
Variation in timing and abundance of flowering by Delphinium barbeyi Huth (Ranunculaceae): the roles of snowpack, frost, and La Niña, in the context of climate change.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh
2002年學術文章
@zh-hant
name
Variation in timing and abunda ...... the context of climate change.
@ast
Variation in timing and abunda ...... the context of climate change.
@en
type
label
Variation in timing and abunda ...... the context of climate change.
@ast
Variation in timing and abunda ...... the context of climate change.
@en
prefLabel
Variation in timing and abunda ...... the context of climate change.
@ast
Variation in timing and abunda ...... the context of climate change.
@en
P1433
P1476
Variation in timing and abunda ...... the context of climate change.
@en
P2093
Gary J Dodge
Manuel A Morales
P2888
P304
P356
10.1007/S00442-001-0835-Y
P407
P577
2002-02-01T00:00:00Z