May 26, 2010
Termites Hold The Reins In The African Savanna
The majestic animals most closely associated with the African savanna "“ fierce lions, massive elephants, towering giraffes "“ may be relatively minor players when it comes to shaping the ecosystem. The real king of the savanna appears to be the termite, say ecologists who have found that this humble creature contributes mightily to a grassland in central Kenya. Robert M. Pringle, a research fellow at Harvard University, and colleagues show that termite mounds greatly enhance plant and animal activity at a local level, while their even distribution over a larger area maximizes ecosystem-wide productivity (biomass). The findings, publishing next week in the online, open access journal PLoS Biology, affirm a counterintuitive approach to ecology: often it's the small things that have the most impact.
Prior research on the Kenya dwarf gecko initially drew the first author's attention to the peculiar role of grassy termite mounds, which in this part of Kenya are some 10 meters in diameter and spaced some 60 to 100 meters apart. Each mound teems with termites, who build the mounds over the course of centuries. After observing unexpectedly high numbers of lizards in the vicinity of mounds, Pringle and his colleagues began to quantify ecological productivity relative to mound density. They found that each mound supported dense aggregations of flora and fauna: plants grew more rapidly the closer they were to mounds, and animal populations and reproductive rates fell off appreciably with greater distance. What was observed on the ground was even clearer in satellite imagery. Each mound "“ relatively inconspicuous on the Kenyan grassland "“ stood at the center of a burst of floral productivity. More importantly, these bursts were highly organized in relation to one another, evenly dispersed as if squares on a checkerboard. The result, says Pringle, is an optimized network of plant and animal output closely tied to the ordered distribution of termite mounds."In essence, the highly regular spatial pattern of fertile mounds generated by termites actually increases overall levels of ecosystem production. And it does so in such a profound way," says Todd M. Palmer, assistant professor of biology at the University of Florida and an affiliate of the Mpala Research Centre in Nanyuki, Kenya. "Seen from above, the grid-work of termite mounds in the savanna is not just a pretty picture. The over-dispersion, or regular distribution of these termite mounds, plays an important role in elevating the services this ecosystem provides."
The mechanism through which termite activity is transformed into far-reaching effects on the ecosystem is a complex one. Pringle and Palmer suspect termites import coarse particles into the otherwise fine soil in the vicinity of their mounds. These coarser particles promote water infiltration of the soil, even as they discourage disruptive shrinking and swelling of topsoil in response to precipitation or drought. The mounds also show elevated levels of nutrients such as phosphorus and nitrogen. All this beneficial soil alteration appears to directly and indirectly mold ecosystem services far beyond the immediate vicinity of the mound. While further studies will explore the mechanism through which these spatial patterns of termite mounds emerge, Pringle and Palmer suggest that the present work has implications beyond the basic questions of ecology.
"Termites are typically viewed as pests, and as threats to agricultural and livestock production," Pringle says. "But productivity "“ of both wild and human-dominated landscapes "“ may be more intricately tied to the pattern-generating organisms of the larger natural landscape than is commonly understood."
The findings also have important implications for conservation, Palmer says. "As we think about restoring degraded ecosystems, as we think about restoring coral reefs, or restoring plant communities, this over-dispersed pattern is teaching us something," he says. "It's saying we might want to think about doing our coral restoration or plant restoration in a way that takes advantage of this ecosystem productivity enhancing phenomenon."
Pringle and Palmer's co-authors on the PLoS Biology paper are Daniel F. Doak of the Mpala Research Centre and the University of Wyoming; Alison K. Brody of the Mpala Research Centre and the University of Vermont; and Rudy Jocqu© of the Royal Museum for Central Africa in Tervuren, Belgium.
Funding: This study was supported by a grant from the Sherwood Family Foundation (to Gretchen C. Daily) and by the following National Science Foundation awards: DEB-0709880 and OISE-0852961 to RMP; DEB-0519223 to AKB, DFD, and TMP; and DEB-0444071 to TMP. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Citation: Pringle RM, Doak DF, Brody AK, JocqueÃ´ R, Palmer TM (2010) Spatial Pattern Enhances Ecosystem Functioning in an African Savanna. PLoS Biol 8(5): e1000377. doi:10.1371/journal.pbio.1000377
Image 1: A soldier Odontotermes termite patrols a bit of fungal comb that has been removed from a mound. Although these termites spend their lives underground and are rarely seen, their activities support the charismatic biodiversity of African savannas." Credit: PLoS Biology
Image 2: Termite mounds, seen here in Kenya's Masai Mara as an oasis of green in a sea of brown, help support savanna biodiversity at all levels, from tiny insects to this family of cheetahs. Credit: Robert M. Pringle
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