Jochen Fründ
Jochen Fründ
Biometry and Environmental System Analysis, University of Freiburg
Verified email at - Homepage
Cited by
Cited by
Landscape moderation of biodiversity patterns and processes‐eight hypotheses
T Tscharntke, JM Tylianakis, TA Rand, RK Didham, L Fahrig, P Batáry, ...
Biological reviews 87 (3), 661-685, 2012
Indices, graphs and null models: analyzing bipartite ecological networks
CF Dormann, J Fründ, N Blüthgen, B Gruber
Open Ecology Journal, 2009
Introducing the bipartite package: analysing ecological networks
CF Dormann, B Gruber, J Fründ
R News, 2008
What do interaction network metrics tell us about specialization and biological traits
N Blüthgen, J Fründ, DP Vázquez, F Menzel
Ecology 89 (12), 3387-3399, 2008
Specialization of mutualistic interaction networks decreases toward tropical latitudes
M Schleuning, J Fründ, AM Klein, S Abrahamczyk, R Alarcón, M Albrecht, ...
Current Biology 22 (20), 1925-1931, 2012
Bee diversity effects on pollination depend on functional complementarity and niche shifts
J Fründ, CF Dormann, A Holzschuh, T Tscharntke
Ecology 94 (9), 2042-2054, 2013
Predicting ecosystem functions from biodiversity and mutualistic networks: an extension of trait‐based concepts to plant–animal interactions
M Schleuning, J Fründ, D García
Ecography 38 (4), 380-392, 2015
Pollinator diversity and specialization in relation to flower diversity
J Fründ, KE Linsenmair, N Blüthgen
Oikos 119 (10), 1581-1590, 2010
Ecological correlates of vulnerability to fragmentation in Neotropical bats
CFJ Meyer, J Fründ, WP Lizano, EKV Kalko
Journal of Applied Ecology 45 (1), 381-391, 2008
The potential for indirect effects between co‐flowering plants via shared pollinators depends on resource abundance, accessibility and relatedness
LG Carvalheiro, JC Biesmeijer, G Benadi, J Fründ, M Stang, I Bartomeus, ...
Ecology Letters 17 (11), 1389-1399, 2014
Ecological networks are more sensitive to plant than to animal extinction under climate change
M Schleuning, J Fründ, O Schweiger, E Welk, J Albrecht, M Albrecht, ...
Nature Communications 7, 13965, 2016
Sampling bias is a challenge for quantifying specialization and network structure: lessons from a quantitative niche model
J Fründ, KS McCann, NM Williams
Oikos 125 (4), 502-513, 2016
Identifying causes of patterns in ecological networks: opportunities and limitations
CF Dormann, J Fründ, HM Schaefer
Annual Review of Ecology, Evolution, and Systematics 48, 559-584, 2017
Landscape configuration of crops and hedgerows drives local syrphid fly abundance
S Haenke, A Kovács‐Hostyánszki, J Fründ, P Batáry, B Jauker, ...
Journal of applied ecology 51 (2), 505-513, 2014
Response diversity of wild bees to overwintering temperatures
J Fründ, SL Zieger, T Tscharntke
Oecologia 173 (4), 1639-1648, 2013
Linné’s floral clock is slow without pollinators–flower closure and plant‐pollinator interaction webs
J Fründ, CF Dormann, T Tscharntke
Ecology letters 14 (9), 896-904, 2011
The bipartite package
CF Dormann, B Gruber, J Fründ
Version 0.73. R Project for Statistical Computing, Vienna, Austria, 2008
Experimental environmental change and mutualistic vs. antagonistic plant flower–visitor interactions
S Parsche, J Fründ, T Tscharntke
Perspectives in plant ecology, evolution and systematics 13 (1), 27-35, 2011
Defaunation effects on plant recruitment depend on size matching and size trade-offs in seed-dispersal networks
I Donoso, M Schleuning, D García, J Fründ
Proceedings of the Royal Society B: Biological Sciences 284 (1855), 20162664, 2017
Transferring biodiversity-ecosystem function research to the management of ‘real-world’ecosystems
P Manning, J Loos, AD Barnes, P Batáry, FJJA Bianchi, N Buchmann, ...
Advances in Ecological Research 61, 323-356, 2019
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