Summary
Prins and Douglas-Hamilton (1990) analyzed data based on nine census counts of large herbivore species in Lake Manyara National Park, northern Tanzania, over the period 1959–1984. Their major conclusion was that even if individual species-showed large fluctuations in numbers, the different species compensated the fluctuations of the other species in a way resulting in a constancy of total herbivore biomass, constancy of plant biomass consumption, and “overall stability of the system under natural conditions”. The authors believed that they had found a support for this view by calculating the “stability index” based on correlations between numbers of large herbivores. In this paper I show that Prins and Douglas-Hamilton's calculation of the stability index was not justified. Grazing and browsing pressure by large herbivores in Lake Manyara National Park seems to be remarkably constant. However, available information does not allow any rigorous conclusions about the stability of this community. We need more data from other systems dominated by large herbivores to be able to make comparisons and to be able to say which systems are more stable and in what sense.
This is a preview of subscription content, log in via an institution to check access.
References
Abramsky Z, Bowers MA, Rosenzweig ML (1986) Detecting interspecific competition in the field: testing the regression method. Oikos 47: 199–204
Cohen JE, Briand F, Newman CM (1990) Community food webs. Data and theory. Springer-Verlag, Berlin
Harris JRW (1979) The evidence for species guilds is an artefact. Nature 279:350–351
Leps J, Osbornová-Kosinová J, Rejmánek M (1982) Community stability, complexity and species life history strategies. Vegetatio 50:53–63
May RM (1972) Will a large complex system be stable? Nature 238:413–414
May RM (1973) Stability and complexity in model ecosystems. Princeton University Press, Princeton
McNaughton SJ (1978) Stability and diversity of ecological communities. Nature 274:251–253
Owen-Smith N (1989) Morphological factors and their consequences for resource partitioning among African savanna ungulates: a simulation modelling approach. In: Morris DW, Abramsky Z, Fox BJ, Willig MR (eds) Patterns in the structure of mammalian communities. Texas Tech University Press, pp 155–165
Pimm SL (1984) The complexity and stability of ecosystems. Nature 307:321–326
Pimm SL (1991) The balance of nature? University of Chicago Press, Chicago
Prins HHT, Douglas-Hamilton I (1990) Stability in a multi-species assemblage of large herbivores in East Africa. Oecologia 83:392–400
Rahel FJ (1990) The hierarchical nature of community persistence: a problem of scale. Am Nat 136:328–344
Rejmánek M, Stary P (1979) Connectance in real biotic communities and critical values for stability of model ecosystems. Nature 280:311–313
Rejmánek M, Kindlman P, Leps J (1983) Increase of stability with connectance in model competition communities. J Theor Biol 101: 649–656
Sinclair ARE (1985) Does interspecific competition or predation shape the African ungulate community? J Anim Ecol 54:899–918
Skorupa JP (1983) Monkeys and matrices: a second look. Oecologia 57: 391–396
Yodzis P (1980) The connectance of real ecosystems. Nature 284:544–545
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Rejmánek, M. Stability in a multi-species assemblage of large herbivores in East Africa: an alternative interpretation. Oecologia 89, 454–456 (1992). https://doi.org/10.1007/BF00317426
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00317426