B
Brian Moss
Researcher at University of Liverpool
Publications - 222
Citations - 20950
Brian Moss is an academic researcher from University of Liverpool. The author has contributed to research in topics: Macrophyte & Eutrophication. The author has an hindex of 70, co-authored 222 publications receiving 19390 citations. Previous affiliations of Brian Moss include University of East Anglia & University of Bristol.
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Journal ArticleDOI
Alternative equilibria in shallow lakes
TL;DR: The reasons why alternative equilibria are theoretically expected in shallow lakes are discussed, evidence from the field is reviewed, and recent applications of this insight in lake management are evaluated.
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Tracking Environmental Change Using Lake Sediments
TL;DR: This book brings together a wide array of numerical and statistical techniques currently available for use in palaeolimnology and other branches of palaeoecology.
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Lake responses to reduced nutrient loading - an analysis of contemporary long-term data from 35 case studies
Erik Jeppesen,Martin Søndergaard,Jens Peder Jensen,Karl E. Havens,Orlane Anneville,Laurence Carvalho,Michael F. Coveney,Rainer Deneke,Martin T. Dokulil,Bob Foy,Daniel Gerdeaux,Stephanie E. Hampton,Sabine Hilt,Külli Kangur,Jan Köhler,E. Lammens,Torben L. Lauridsen,Marina Manca,Maria Rosa Miracle,Brian Moss,Peeter Nõges,Gunnar Persson,Geoff Phillips,Rob Portielje,Susana Romo,Claire L. Schelske,Dietmar Straile,István Tátrai,Eva Willén,Monika Winder +29 more
TL;DR: In this article, the authors examined 35 long-term (5-35 years, mean: 16 years) lake re-oligotrophication studies and found that external total phosphorus loading resulted in lower in-lake TP concentration, lower chlorophyll a (chl a) concentration and higher Secchi depth in most lakes.
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A mechanism to account for macrophyte decline in progressively eutrophicated freshwaters
TL;DR: Evidence is given that loss of macrophytes is often due to increased growth of, and shading by, epiphytes and filamentous algae associated with the weed beds, and that phytoplankton development is subsequent rather than causative.
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Warmer climates boost cyanobacterial dominance in shallow lakes
Sarian Kosten,Sarian Kosten,Vera L. M. Huszar,Eloy Bécares,Luciana S. Costa,Ellen Van Donk,Lars-Anders Hansson,Erik Jeppesen,Carla Kruk,Gissell Lacerot,Néstor Mazzeo,Luc De Meester,Brian Moss,Miquel Lürling,Tiina Nõges,Susana Romo,Marten Scheffer +16 more
TL;DR: This article showed that the percentage of the total phytoplankton biovolume attributable to cyanobacteria increases steeply with temperature, indicating a synergistic effect of nutrients and climate.