Biomorphodynamics: Physical-biological feedbacks that shape landscapes
about
Feedbacks in human-landscape systems.The impact of encroachment of mangroves into saltmarshes on saltwater mosquito habitats.Fungal symbiosis and precipitation alter traits and dune building by the ecosystem engineer, Ammophila breviligulata.Biophysical feedback mediates effects of invasive grasses on coastal dune shape.Vegetation engineers marsh morphology through multiple competing stable statesMeta-analysis: abundance, behavior, and hydraulic energy shape biotic effects on sediment transport in streams.Dynamics of plains cottonwood (Populus deltoides) forests and historical landscape change along unchannelized segments of the Missouri River, USA.Understanding human-landscape interactions in the "Anthropocene".On the ecogeomorphological feedbacks that control tidal channel network evolution in a sandy mangrove setting.Influence of mountain geomorphology on alpine ecosystems in the Drakensberg Alpine Centre, Southern AfricaOn the potential of plant species invasion influencing bio-geomorphologic landscape formation in salt marshesForecasting the response of Earth's surface to future climatic and land use changes: A review of methods and research needsCoupled topographic and vegetation patterns in coastal dunes: Remote sensing observations and ecomorphodynamic implicationsBiogeomorphology of tidal landforms: physical and biological processes shaping the tidal landscapeSediment Accretion in Tidal Freshwater Forests and Oligohaline Marshes of the Waccamaw and Savannah Rivers, USAGoing with the flow or against the grain? The promise of vegetation for protecting beaches, dunes, and barrier islands from erosionBiotic drivers of river and floodplain geomorphology - New molecular methods for assessing present-day and past biota
P2860
Q30617454-D5686F94-DF73-4904-876A-4FDBDC1185AAQ30767409-CD3E6781-D2A1-4B92-A957-A9F688F91DD6Q30984219-FF35C267-29F5-44C8-9AA4-CB5C2448DA33Q34352454-75EF9A65-1241-4D37-BFCA-4871A6128098Q36653857-11CD2B3B-F94C-48D4-8649-8237A49EDC85Q38978292-7655C288-EF5A-4168-BDF0-284D15E18DE7Q39632603-9AB20DFF-65F0-4533-B6F5-3EEB6A0A3EA2Q51526444-CBC72EF5-BB71-4F5F-83D6-91E70B3F6C09Q51783808-F4D70A57-8D96-49B9-A599-DE20D5D58316Q56156415-2A3A53E0-4410-4DEC-ABE1-69065F2D0682Q56379513-9A9A75AC-474D-4343-8285-727E9D5E4105Q57142088-A56FAE7E-41AF-48D1-A1B5-440C5352DCF3Q57253727-1BB1A9F3-2783-4147-B532-3C2BF1FD9688Q57253815-B031D27A-0F13-492C-9B41-3B4A7D643CA4Q57851473-ED29AE18-688F-4DE8-8C5F-C8F514E0B6C8Q58312077-7D3EC6CD-F9FE-42CB-AEB7-C3A573551690Q59160665-30CFFDEE-AAFD-46AB-AF8A-810118EE5BE4
P2860
Biomorphodynamics: Physical-biological feedbacks that shape landscapes
description
im November 2008 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в листопаді 2008
@uk
name
Biomorphodynamics: Physical-biological feedbacks that shape landscapes
@en
Biomorphodynamics: Physical-biological feedbacks that shape landscapes
@nl
type
label
Biomorphodynamics: Physical-biological feedbacks that shape landscapes
@en
Biomorphodynamics: Physical-biological feedbacks that shape landscapes
@nl
prefLabel
Biomorphodynamics: Physical-biological feedbacks that shape landscapes
@en
Biomorphodynamics: Physical-biological feedbacks that shape landscapes
@nl
P2093
P2860
P356
P1476
Biomorphodynamics: Physical-biological feedbacks that shape landscapes
@en
P2093
M. A. F. Knaapen
M. L. Kirwan
P2860
P356
10.1029/2007WR006410
P577
2008-11-01T00:00:00Z