Ecological engineering by a mega-grazer: white rhino impacts on a South African savanna
Document Type: Journal Article
Author(s): Matthew S. Waldram; William J. Bond; William D. Stock
Publication Year: 2008

Cataloging Information

  • Africa
  • Ceratotherium simum
  • ecosystem dynamics
  • ecosystem engineers
  • extinction
  • facilitation
  • fire
  • fire management
  • fire regimes
  • fire scar analysis
  • fire-grazing interaction
  • fuel loading
  • grasses
  • grassland
  • grazing
  • herbivory
  • keystone species
  • mammals
  • megaherbivores
  • mosaic
  • Pleistocene
  • pyric herbivory
  • range management
  • rate of spread
  • savannas
  • South Africa
  • white rhino
  • wildfires
  • wildlife food habits
  • wildlife habitat management
  • International
Record Maintained By:
Record Last Modified: June 1, 2018
FRAMES Record Number: 18062
Tall Timbers Record Number: 22621, 22620
TTRS Location Status: In-file
TTRS Call Number: Fire File
TTRS Abstract Status: Okay, Fair use, Reproduced by permission

This bibliographic record was either created or modified by the Tall Timbers Research Station and Land Conservancy and is provided without charge to promote research and education in Fire Ecology. The E.V. Komarek Fire Ecology Database is the intellectual property of the Tall Timbers Research Station and Land Conservancy.


Herbivory can change the structure and spatial heterogeneity of vegetation. We ask whether all species of grazers in a savanna ecosystem can have this effect or whether megaherbivores (>1000 kg) have a "special" role that cannot be replicated by other species of grazers. We performed a replicated landscape scale experiment that examined the effects of White Rhino on the grass sward, on other species of grazing mammals and on the movement of fire through the landscape. White Rhino maintained short grass ("lawn") patches in mesic areas (approx. 750 mm pa) with increases in grass sward height when they were removed. Other species of grazers were unable to maintain short grass communities when White Rhino were removed. In semi-arid areas (approx. 600 mm pa) other, smaller grazers were able to maintain short grass communities in the absence of White Rhino and sward height did not increase. White Rhino removals affected fire by increasing fuel loads and fuel continuity. This resulted in larger, less patchy fires. We propose that the White Rhino acts as an influential ecosystem engineer, creating and maintaining short grass swards, which alter habitat for other grazers and change the fire regime. These results indicate the existence of context-dependent facilitation between White Rhino and other grazers in mesic, but not in semi-arid, savannas. Such top down effects on the ecosystem may have been much more widespread before the extinction of large grazers in the Pleistocene.

Online Link(s):
Waldram, Matthew S., Bond, William J.; Stock, William D. 2008. Ecological engineering by a mega-grazer: white rhino impacts on a South African savanna. Ecosystems 11(1):101-112.