Anna Kuparinen
Anna Kuparinen
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Cited by
Cited by
Long‐distance gene flow and adaptation of forest trees to rapid climate change
A Kremer, O Ronce, JJ Robledo‐Arnuncio, F Guillaume, G Bohrer, ...
Ecology letters 15 (4), 378-392, 2012
Detecting and managing fisheries-induced evolution
A Kuparinen, J Merilä
Trends in ecology & evolution 22 (12), 652-659, 2007
Spread of North American wind‐dispersed trees in future environments
R Nathan, N Horvitz, Y He, A Kuparinen, FM Schurr, GG Katul
Ecology Letters 14 (3), 211-219, 2011
Life‐history correlates of extinction risk and recovery potential
JA Hutchings, RA Myers, VB García, LO Lucifora, A Kuparinen
Ecological Applications 22 (4), 1061-1067, 2012
Mechanistic models of seed dispersal by wind
R Nathan, GG Katul, G Bohrer, A Kuparinen, MB Soons, SE Thompson, ...
Theoretical Ecology 4 (2), 113-132, 2011
Increased mortality can promote evolutionary adaptation of forest trees to climate change
A Kuparinen, O Savolainen, FM Schurr
Forest Ecology and Management 259 (5), 1003-1008, 2010
Mechanistic models for wind dispersal
A Kuparinen
Trends in plant science 11 (6), 296-301, 2006
The evolutionary legacy of size‐selective harvesting extends from genes to populations
S Uusi‐Heikkilä, AR Whiteley, A Kuparinen, S Matsumura, PA Venturelli, ...
Evolutionary applications 8 (6), 597-620, 2015
Ecological consequences of body size decline in harvested fish species: positive feedback loops in trophic interactions amplify human impact
A Audzijonyte, A Kuparinen, R Gorton, EA Fulton
Biology letters 9 (2), 20121103, 2013
Modeling air-mediated dispersal of spores, pollen and seeds in forested areas
A Kuparinen, T Markkanen, H Riikonen, T Vesala
Ecological modelling 208 (2-4), 177-188, 2007
Responses of a top and a meso predator and their prey to moon phases
V Penteriani, A Kuparinen, M del Mar Delgado, F Palomares, ...
Oecologia 173 (3), 753-766, 2013
Consequences of fisheries-induced evolution for population productivity and recovery potential
A Kuparinen, JA Hutchings
Proceedings of the Royal Society B: Biological Sciences 279 (1738), 2571-2579, 2012
How fast is fisheries‐induced evolution? Quantitative analysis of modelling and empirical studies
A Audzijonyte, A Kuparinen, EA Fulton
Evolutionary applications 6 (4), 585-595, 2013
Harvest-induced evolution: insights from aquatic and terrestrial systems
A Kuparinen, M Festa-Bianchet
Philosophical Transactions of the Royal Society B: Biological Sciences 372 …, 2017
Increases in air temperature can promote wind-driven dispersal and spread of plants
A Kuparinen, G Katul, R Nathan, FM Schurr
Proceedings of the Royal Society B: Biological Sciences 276 (1670), 3081-3087, 2009
Abiotic and fishing-related correlates of angling catch rates in pike (Esox lucius)
A Kuparinen, T Klefoth, R Arlinghaus
Fisheries Research 105 (2), 111-117, 2010
Estimating fisheries‐induced selection: Traditional gear selectivity research meets fisheries‐induced evolution
A Kuparinen, S Kuikka, J Merilä
Evolutionary Applications 2 (2), 234-243, 2009
Fishing-induced life-history changes degrade and destabilize harvested ecosystems
A Kuparinen, A Boit, FS Valdovinos, H Lassaux, ND Martinez
Scientific reports 6 (1), 1-9, 2016
Assessing abundance of populations with limited data: lessons learned from data-poor fisheries stock assessment
A Chrysafi, A Kuparinen
Environmental Reviews 24 (1), 25-38, 2016
Pollen productivity estimates strongly depend on assumed pollen dispersal
M Theuerkauf, A Kuparinen, H Joosten
The Holocene 23 (1), 14-24, 2013
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