Geoscience Reference
In-Depth Information
Lindeman, R.L. (1942). The trophic-dynamic aspect of ecology. Ecology
23
, 399-418.
Loeuille, N., and Loreau, M. (2006). Evolution of body size in food webs: Does the
energetic equivalence rule hold? Ecol. Lett.
9
, 171-178.
Long, Z.T., and Morin, P.J. (2005). Effects of organism size and community compo-
sition on ecosystem functioning. Ecol. Lett.
8
, 1271-1282.
Long, Z.T., Steiner, C.F., Krumins, J.A., and Morin, P.J. (2006). Species richness and
allometric scaling jointly determine biomass in model aquatic food webs. J. Anim.
Ecol.
75
, 1014-1023.
Marquet, P.A. (2000). Invariants, scaling laws and ecological complexity. Science
289
,
1487-1488.
Marquet, P.A., and Cofre, H. (1999). Temporal and spatial scales in the structure of
mammalian assemblages in South America: A macroecological approach. Oikos
85
, 299-309.
Marquet, P.A., and Taper, M.L. (1998). On size and area: Patterns of mammalian
body size extremes across landmasses. Evol. Ecol.
12
, 127-139.
Marquet, P.A., Navarrette, S.A., and Castilla, J.C. (1990). Scaling population density
to body size in rocky intertidal communities. Science
250
, 1125-1127.
Marquet, P.A., Navarrete, S.A., and Castilla, J.C. (1995). Body size, population
density, and the energetic equivalence rule. J. Anim. Ecol.
64
, 325-332.
Marquet, P.A., Quinones, R.A., Abades, S., Labra, F., Tognelli, M., Arim, M., and
Rivadeneira, M. (2005). Scaling and power-laws in ecological systems. J. Exp. Biol.
208
, 1749-1769.
Marquet, P.A., Abades, S., Keymer, J.E., and Zeballos, H. (2008). Discontinuities in
body-size distributions: A view from the top. In: Discontinuities in Ecosystems
and Other Complex Systems (Ed. by C.R. Allen and C.S. Holling), pp. 45-57.
Columbia University Press, New York.
Martin, R.D., Genoud, M., and Hemelrijk, C.K. (2005). Problems of allometric
scaling analysis: Examples from mammalian reproductive biology. J. Exp. Biol.
208
, 1731-1747.
Maxwell, T.A.D., and Jennings, S. (2006). Predicting abundance-body size relation-
ships in functional and taxonomic subsets of food webs. Oecologia
250
, 282-290.
McCann, K.S., Rasmussen, J.B., and Umbanhowar, J. (2005). The dynamics of
spatially coupled food webs. Ecol. Lett.
8
, 513-523.
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.
McNab, B.K. (2002). The Physiological Ecology of Vertebrates. Cornell University
Press, New York.
Meehan, T.D., Jetz, W., and Brown, J.H. (2004). Energetic determinants of abun-
dance in winter landbird communities. Ecol. Lett.
7
, 532-537.
Meli´n, C.J., Vilas, C., Bald´ , F., Gonz´lez-Orteg´n, E., Drake, P., andWilliams, R.J.
(2011). Eco-evolutionary dynamics of individual-based food webs. Adv. Ecol. Res.
45
, 225-268.
Miki, T., Nakazawa, T., Yokokawa, T., and Nagata, T. (2008). Functional conse-
quences of viral impacts on bacterial communities: A food-web model analysis.
Freshwat. Biol.
53
, 1142-1153.
Mittelbach, G.G. (1981). Foraging efficiency and body size: A study of optimal diet
and habitat use by bluegills. Ecology
62
, 1370.
Muggeo, V.M.R. (2003). Estimating regression models with unknown break-points.
Stat. Med.
22
, 3055-3071.
Muggeo, V.M.R. (2008). Segmented: An R package to fit regression models with
broken-line relationships. R News
8
, 20-25.
