Details zur Publikation |
Kategorie | Textpublikation |
Referenztyp | Buchkapitel |
DOI | 10.1016/B978-0-12-386475-8.00005-8 |
Titel (primär) | The role of body size in complex food webs: a cold case |
Titel (sekundär) | The role of body size in multispecies systems |
Autor | Jacob, U.; Thierry, A.; Brose, U.; Arntz, W.E.; Berg, S.; Brey, T.; Fetzer, I.; Jonsson, T.; Mintenbeck, K.; Möllmann, C.; Petchey, O.L.; Riede, J.O.; Dunne, J.A. |
Herausgeber | Belgrano, A.; Reiss, J. |
Quelle | Advances in Ecological Research |
Erscheinungsjahr | 2011 |
Department | UMB |
Band/Volume | 45 |
Seite von | 181 |
Seite bis | 223 |
Sprache | englisch |
Keywords | Network structure; Ecosystem; Food web; Weddell Sea |
Abstract | Human-induced habitat destruction,
overexploitation, introduction of alien species and climate change are
causing species to go extinct at unprecedented rates, from local to
global scales. There are growing concerns that these kinds of
disturbances alter important functions of ecosystems. Our current
understanding is that key parameters of a community (e.g. its functional
diversity, species composition, and presence/absence of vulnerable
species) reflect an ecological network's ability to resist or rebound
from change in response to pressures and disturbances, such as species
loss. If the food web structure is relatively simple, we can analyse the
roles of different species interactions in determining how
environmental impacts translate into species loss. However, when
ecosystems harbour species-rich communities, as is the case in most
natural systems, then the complex network of ecological interactions
makes it a far more challenging task to perceive how species’ functional
roles influence the consequences of species loss. One approach to deal
with such complexity is to focus on the functional traits of species in
order to identify their respective roles: for instance, large species
seem to be more susceptible to extinction than smaller species. Here, we
introduce and analyse the marine food web from the high Antarctic
Weddell Sea Shelf to illustrate the role of species traits in relation
to network robustness of this complex food web. Our approach was
threefold: firstly, we applied a new classification system to all
species, grouping them by traits other than body size; secondly, we
tested the relationship between body size and food web parameters within
and across these groups and finally, we calculated food web robustness.
We addressed questions regarding (i) patterns of species
functional/trophic roles, (ii) relationships between species functional
roles and body size and (iii) the role of species body size in terms of
network robustness. Our results show that when analyzing relationships
between trophic structure, body size and network structure, the
diversity of predatory species types needs to be considered in future
studies. |
dauerhafte UFZ-Verlinkung | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=11953 |
Jacob, U., Thierry, A., Brose, U., Arntz, W.E., Berg, S., Brey, T., Fetzer, I., Jonsson, T., Mintenbeck, K., Möllmann, C., Petchey, O.L., Riede, J.O., Dunne, J.A. (2011): The role of body size in complex food webs: a cold case In: Belgrano, A., Reiss, J. (eds.) The role of body size in multispecies systems Advances in Ecological Research 45 Academic Press / Elsevier, London, p. 181 - 223 10.1016/B978-0-12-386475-8.00005-8 |