Land-to-sea connectivity: linking human-derived terrestrial subsidies to subtidal habitat change on open rocky coasts.
about
Trophic cascades induced by lobster fishing are not ubiquitous in southern California kelp forestsStability of strong species interactions resist the synergistic effects of local and global pollution in kelp forestsIdentifying thresholds for ecosystem-based managementTrophic compensation reinforces resistance: herbivory absorbs the increasing effects of multiple disturbances.FORECASTED CO2 MODIFIES THE INFLUENCE OF LIGHT IN SHAPING SUBTIDAL HABITAT(1).Loss and recovery potential of marine habitats: an experimental study of factors maintaining resilience in subtidal algal forests at the Adriatic sea.Context-dependency in the effects of nutrient loading and consumers on the availability of space in marine rocky environments.The footprint of continental-scale ocean currents on the biogeography of seaweeds.Shining light on benthic macroalgae: mechanisms of complementarity in layered macroalgal assemblages.The effects of an invasive seaweed on native communities vary along a gradient of land-based human impactsThe other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominanceTowards restoration of missing underwater forests.Considering Land-Sea Interactions and Trade-offs for Food and Biodiversity.Contrasting resource limitations of marine primary producers: implications for competitive interactions under enriched CO2 and nutrient regimes.Survival in low light: photosynthesis and growth of a red alga in relation to measured in situ irradiance.Conceptualizing ecosystem tipping points within a physiological framework.Modelling the dispersion of treated wastewater in a shallow coastal wind-driven environment, Geographe Bay, Western Australia: implications for environmental management.Organismal homeostasis buffers the effects of abiotic change on community dynamics.The direct effects of increasing CO2 and temperature on non-calcifying organisms: increasing the potential for phase shifts in kelp forests.Immanent conditions determine imminent collapses: nutrient regimes define the resilience of macroalgal communities.The invasion of Caulerpa cylindracea in the Mediterranean: the known, the unknown and the knowableVariations in importance and intensity of competition underpin context dependency in the effects of an invasive seaweed on resident assemblagesThe sounds of silence: regime shifts impoverish marine soundscapesModeling kelp forest distribution and biomass along temperate rocky coastlinesDisrupting the effects of synergies between stressors: improved water quality dampens the effects of future CO2on a marine habitatOrigins and consequences of global and local stressors: incorporating climatic and non-climatic phenomena that buffer or accelerate ecological changeSustainability in Near-shore Marine Systems: Promoting Natural ResilienceVariation in the strength of continental boundary currents determines continent-wide connectivity in kelp
P2860
Q21133898-70F9C0C0-528B-49B4-9531-E19A35BABDF3Q28481549-250E1753-D623-4DBA-8167-F6D43422051BQ28749186-F2009C82-983E-486B-B1D6-63A0F840E14EQ30884170-0F671C3B-AED0-4D3D-87CB-AC668C8F1AB2Q31064039-02F5E670-E365-466B-A5FA-9F9A1A50B879Q33592862-190B68AF-9C67-41AE-8CE3-0E1F75377E7CQ34211990-2F4D20C3-47A8-4385-B8DA-D600ECF353B3Q35048880-BB0E793E-D5CB-45F9-BDCB-DFB0903A592BQ35464025-1C06D6FF-218A-4E6B-9B12-93E64D4947E8Q35970122-697D8372-2A93-4CA8-88E4-BA1A8FCB92A5Q37134643-C5C01593-B8A8-4E49-9167-73698AAEF147Q37452512-2E432E75-ACBB-482E-9827-10658E4C568BQ38638195-2775B193-F457-4A88-A4C4-27454110EB74Q39528042-BD3E6B67-C4AB-4F21-9C3A-9232C7616A8DQ39895045-42E4DFB8-6081-4064-ADD2-02BCBB70465BQ40495877-613FC408-800E-4F44-AD10-A858FA414C73Q43318259-FE10EBA9-C93D-404D-851B-2D334DB5D317Q46458522-A0F1B5B1-85CD-4B7A-B8B9-A09A2C6621FCQ51640717-0BCA02A3-DDBA-4EF9-943D-71B044FF1BF3Q52698089-393FF266-B099-44FE-AAEE-37147986941CQ56389804-7A13D8CA-16D6-4ECA-B331-03D69CD55855Q56439590-192FA703-A97E-4F3B-BA9D-2A16FB01210AQ56674407-FAE49860-EF3B-4E6C-B468-5930E72BE1C1Q57538324-D173571F-CB57-4F67-BB45-334AAD0CB4BCQ58080223-88B2E534-4F12-476F-BD1C-F83880E5B81CQ58080257-0D56C57B-B00D-4D45-8228-8E5F63FB9BF4Q58080280-B10D4AA6-E0E9-44DB-AC99-B5A2BCA2910FQ58306865-9E4AE56A-710F-4D3A-A9B0-400F6FDEBF8B
P2860
Land-to-sea connectivity: linking human-derived terrestrial subsidies to subtidal habitat change on open rocky coasts.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
Land-to-sea connectivity: link ...... t change on open rocky coasts.
@en
Land-to-sea connectivity: link ...... t change on open rocky coasts.
@nl
type
label
Land-to-sea connectivity: link ...... t change on open rocky coasts.
@en
Land-to-sea connectivity: link ...... t change on open rocky coasts.
@nl
prefLabel
Land-to-sea connectivity: link ...... t change on open rocky coasts.
@en
Land-to-sea connectivity: link ...... t change on open rocky coasts.
@nl
P356
P1476
Land-to-sea connectivity: link ...... t change on open rocky coasts.
@en
P2093
Daniel Gorman
P304
P356
10.1890/08-0831.1
P577
2009-07-01T00:00:00Z