Ecological, historical and evolutionary determinants of modularity in weighted seed-dispersal networks
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Ecological, historical and evolutionary determinants of modularity in weighted seed-dispersal networks. / Schleuning, Matthias; Ingmann, Lili; Strauß, Rouven; Fritz, Susanne A.; Dalsgaard, Bo; Dehling, D. Matthias; Plein, Michaela; Saavedra, Francisco; Sandel, Brody Steven; Svenning, Jens-Christian; Böhning-Gaese, Katrin; Dormann, Carsten F.
I: Ecology Letters, Bind 17, Nr. 4, 2014, s. 454-463.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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TY - JOUR
T1 - Ecological, historical and evolutionary determinants of modularity in weighted seed-dispersal networks
AU - Schleuning, Matthias
AU - Ingmann, Lili
AU - Strauß, Rouven
AU - Fritz, Susanne A.
AU - Dalsgaard, Bo
AU - Dehling, D. Matthias
AU - Plein, Michaela
AU - Saavedra, Francisco
AU - Sandel, Brody Steven
AU - Svenning, Jens-Christian
AU - Böhning-Gaese, Katrin
AU - Dormann, Carsten F.
N1 - © 2014 John Wiley & Sons Ltd/CNRS.
PY - 2014
Y1 - 2014
N2 - Modularity is a recurrent and important property of bipartite ecological networks. Although well-resolved ecological networks describe interaction frequencies between species pairs, modularity of bipartite networks has been analysed only on the basis of binary presence-absence data. We employ a new algorithm to detect modularity in weighted bipartite networks in a global analysis of avian seed-dispersal networks. We define roles of species, such as connector values, for weighted and binary networks and associate them with avian species traits and phylogeny. The weighted, but not binary, analysis identified a positive relationship between climatic seasonality and modularity, whereas past climate stability and phylogenetic signal were only weakly related to modularity. Connector values were associated with foraging behaviour and were phylogenetically conserved. The weighted modularity analysis demonstrates the dominating impact of ecological factors on the structure of seed-dispersal networks, but also underscores the relevance of evolutionary history in shaping species roles in ecological communities.
AB - Modularity is a recurrent and important property of bipartite ecological networks. Although well-resolved ecological networks describe interaction frequencies between species pairs, modularity of bipartite networks has been analysed only on the basis of binary presence-absence data. We employ a new algorithm to detect modularity in weighted bipartite networks in a global analysis of avian seed-dispersal networks. We define roles of species, such as connector values, for weighted and binary networks and associate them with avian species traits and phylogeny. The weighted, but not binary, analysis identified a positive relationship between climatic seasonality and modularity, whereas past climate stability and phylogenetic signal were only weakly related to modularity. Connector values were associated with foraging behaviour and were phylogenetically conserved. The weighted modularity analysis demonstrates the dominating impact of ecological factors on the structure of seed-dispersal networks, but also underscores the relevance of evolutionary history in shaping species roles in ecological communities.
U2 - 10.1111/ele.12245
DO - 10.1111/ele.12245
M3 - Journal article
C2 - 24467289
VL - 17
SP - 454
EP - 463
JO - Ecology Letters
JF - Ecology Letters
SN - 1461-023X
IS - 4
ER -
ID: 101166136