Geoscience Reference
In-Depth Information
Lawton, J.H. (1989). Food webs. In: Ecological Concepts (Ed. by J.M. Cherrett),
pp. 43-78. Blackwell Scientific Publications, Oxford, UK.
Layer, K., Hildrew, A., Monteith, D., and Woodward, G. (2010a). Long-term varia-
tion in the littoral food web of an acidified mountain lake. Glob. Change Biol.
16
,
3133-3143.
Layer, K., Riede, J., Hildrew, A., and Woodward, G. (2010b). Food web structure
and stability in 20 streams across a wide pH gradient. Adv. Ecol. Res.
42
, 265-299.
Layer, K., Hildrew, A.G., Jenkins, G.B., Riede, J., Rossiter, S.J., Townsend, C.R.,
and Woodward, G. (2011). Long-term dynamics of a well-characterised food web:
four decades of acidification and recovery in the Broadstone Stream model system.
Adv. Ecol. Res.
44
, 69-117.
Layman, C.A., Winemiller, K.O., Arrington, D.A., and Jepsen, D.B. (2005). Body
size and trophic position in a diverse tropical food web. Ecology
86
, 2530-2535.
Leaper, R., and Huxham, M. (2002). Size constraints in a real food web: Predator,
parasite and prey body-size relationships. Oikos
99
, 443-456.
Lewis, H., Law, R., and McKane, A. (2008). Abundance-body size relationships: The
roles of metabolism and population dynamics. J. Anim. Ecol.
77
, 1056-1062.
Loeuille, N., and Loreau, M. (2005). Evolutionary emergence of size-structured food
webs. Proc. Natl. Acad. Sci. USA
102
, 5761-5766.
McCafferty, W.P. (1983). Aquatic Entomology. Jones and Bartlett Publishers, Inc.,
Boston, USA.
McCoy, M.W., Bolker, B.M., Warkentin, K.M., and Vonesh, J.R. (2011). Predicting
predation through prey ontogeny using size-dependent functional response models.
Am. Nat.
177
, 752-766.
McLaughlin, O., Jonsson, T., and Emmerson, M. (2010). Temporal variability in
predator-prey relationships of a forest floor food web. Adv. Ecol. Res.
42
, 171-264.
McMahon, T., and Bonner, J. (1983). On Size and Life. Scientific American, New
York.
Memmott, J., Martinez, N.D., and Cohen, J.E. (2000). Predators, parasitoids and
pathogens: Species richness, trophic generality and body sizes in a natural food
web. J. Anim. Ecol.
69
, 1-15.
Meyer, E. (1989). The relationship between body length parameters and dry mass in
running water invertebrates. Arch. Hydrobiol.
117
, 191-203.
Miserendino, M.L. (2001). Length-mass relationships for macroinvertebrates in
freshwater environments of Patagonia (Argentina). Ecol. Aust. (Argentina)
11
,
3-8.
Mulder, C., Cohen, J.E., Set¨ l¨ , H., Bloem, J., and Breure, A.M. (2005). Bacterial
traits, organism mass, and numerical abundance in the detrital soil food web of
Dutch agricultural grasslands. Ecol. Lett.
8
, 80-90.
Nakazawa, T., Sakai, Y., Hsieh, C., Koitabashi, T., Tayasu, I., Yamamura, N., and
Okuda, N. (2010). Is the relationship between body size and trophic niche position
time-invariant in a predatory fish? First stable isotope evidence. PLoS One
5
,2.
Nakazawa, T., Ushio, M., and Kondoh, M. (2011). Scale dependence of predator-
prey mass ratio: Determinants and applications. Adv. Ecol. Res.
45
, 269-302.
Neubert, M.G., Blumenshine, S.C., Duplisea, D.E., Jonsson, T., and Rashleigh, B.
(2000). Body size and food web structure: Testing the equiprobability assumption
of the cascade model. Oecologia
123
, 241-251.
Neutel, A., Heesterbeek, J., and de Ruiter, P. (2002). Stability in real food webs: Weak
links in long loops. Science
296
, 1120-1123.
Novotny, V., and Wilson, M.R. (1997). Why are there no small species among xylem-
sucking insects? Evol. Ecol.
11
, 419-437.
