Monika Winder
Cited by
Cited by
Lakes as sentinels of climate change
R Adrian, CM O'Reilly, H Zagarese, SB Baines, DO Hessen, W Keller, ...
Limnology and oceanography 54 (6part2), 2283-2297, 2009
Lake responses to reduced nutrient loading–an analysis of contemporary long‐term data from 35 case studies
E Jeppesen, M S°ndergaard, JP Jensen, KE Havens, O Anneville, ...
Freshwater biology 50 (10), 1747-1771, 2005
Climate change uncouples trophic interactions in an aquatic ecosystem
M Winder, DE Schindler
Ecology 85 (8), 2100-2106, 2004
Beyond the Plankton Ecology Group (PEG) model: mechanisms driving plankton succession
U Sommer, R Adrian, L De Senerpont Domis, JJ Elser, U Gaedke, ...
Annual review of ecology, evolution, and systematics 43, 429-448, 2012
Climatic effects on the phenology of lake processes
M Winder, DE Schindler
Global Change Biology 10 (11), 1844-1856, 2004
Lake warming favours small-sized planktonic diatom species
M Winder, JE Reuter, SG Schladow
Proceedings of the Royal Society B: Biological Sciences 276 (1656), 427-435, 2009
Phytoplankton response to a changing climate
M Winder, U Sommer
Hydrobiologia 698 (1), 5-16, 2012
Ocean acidification-induced food quality deterioration constrains trophic transfer
D Rossoll, R Berm˙dez, H Hauss, KG Schulz, U Riebesell, U Sommer, ...
PLoS one 7 (4), e34737, 2012
The annual cycles of phytoplankton biomass
M Winder, JE Cloern
Philosophical Transactions of the Royal Society B: Biological Sciences 365á…, 2010
Plankton dynamics under different climatic conditions in space and time
LN De Senerpont Domis, JJ Elser, AS Gsell, VLM Huszar, BW Ibelings, ...
Freshwater Biology 58 (3), 463-482, 2013
Toward mountains without permanent snow and ice
M Huss, B Bookhagen, C Huggel, D Jacobsen, RS Bradley, JJ Clague, ...
Earth's Future 5 (5), 418-435, 2017
A bioenergetic framework for the temperature dependence of trophic interactions
B Gilbert, TD Tunney, KS McCann, JP DeLong, DA Vasseur, V Savage, ...
Ecology letters 17 (8), 902-914, 2014
The importance of benthic–pelagic coupling for marine ecosystem functioning in a changing world
JR Griffiths, M Kadin, FJA Nascimento, T Tamelander, A T÷rnroos, ...
Global change biology 23 (6), 2179-2196, 2017
The Baltic Sea as a time machine for the future coastal ocean
TBH Reusch, J Dierking, HC Andersson, E Bonsdorff, J Carstensen, ...
Science Advances 4 (5), eaar8195, 2018
Temporal organization of phytoplankton communities linked to physical forcing
M Winder, DA Hunter
Oecologia 156 (1), 179-192, 2008
Partitioning the relative importance of phylogeny and environmental conditions on phytoplankton fatty acids
AWE Galloway, M Winder
PloS one 10 (6), e0130053, 2015
Patterns and mechanisms of phytoplankton variability in Lake Washington (USA)
GB Arhonditsis, M Winder, MT Brett, DE Schindler
Water Research 38 (18), 4013-4027, 2004
Environmental stability and lake zooplankton diversity–contrasting effects of chemical and thermal variability
JB Shurin, M Winder, R Adrian, W Keller, B Matthews, AM Paterson, ...
Ecology Letters 13 (4), 453-463, 2010
Meta-analysis of amino acid stable nitrogen isotope ratios for estimating trophic position in marine organisms
JM Nielsen, BN Popp, M Winder
Oecologia 178 (3), 631-642, 2015
Biological communities in San Francisco Bay track large‐scale climate forcing over the North Pacific
JE Cloern, KA Hieb, T Jacobson, B Sansˇ, E Di Lorenzo, MT Stacey, ...
Geophysical Research Letters 37 (21), 2010
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