25/10/2012
Effects of Fish Extinction on Ecosystems
Nutrients such as nitrogen (N) and phosphorus (P) are critical for supporting the productivity of plants and micro- organisms at the base of aquatic food webs. Fish play an important role in nutrient cycles because they store a large proportion of ecosystem nutrients in their tissues, transport nutrients farther than other aquatic animals and excrete nutrients in dissolved forms that are readily available to primary producers. Although the influence of fish communities on food web structures, nutrient recycling, and productivity is well documented, little is known about the effects on the ecosystem of a reduction in the fish species richness. It is therefore of significant importance to evaluate the potential impacts of ongoing decreases in fish diversity.
In a recent study, an American team of scientists has investigated the impacts of nutrient recycling in random and non-random extinction scenarios on tropical ecosystems using computer simulations and field data from Lake Tanganyika (bordering Tanzania, Zaire, Zambia and Burundi) and from the Rio Las Marias (a Venezuelan river). Their main results are as follows: • Following extinctions, surviving species may be able to compensate for lost species by increasing their roles in nutrient recycling. In simulations of both ecosystems, when surviving species successfully picked up the slack in nutrient recycling left by extinct species, N and P were maintained at 80% of their starting values until over half of the species were lost.
• Non-random extinction scenarios (which are generally closer to real world extinction patterns) produce markedly different outcomes than random ones. In non-random scenarios, losses of rare species have the weakest impacts. If extinctions are modelled on their order in the food chain, intermediate effects are observed which are comparable to random extinction scenarios, where surviving species do not compensate for loss of other species. This observation is mostly explained by the relatively small population densities of top predators.
• Considering that fishermen target species whose population density and body size give them relatively high biomass, fishing can rapidly decrease fish biomass and reduce the role of fish in nutrient recycling. Overfishing is also predicted to decrease N/P ratios as small fish typically recycle less N relative to P than larger species. This could have important impacts on primary producers by changing the identity of the limiting nutrient.
• The variation among species in contribution to nutrient cycling is related to both the relative biomass within the community and species-specific differences in excretion rates. In some ecosystems, single species may account for up to 50% of recycled nutrients. However, species that heavily recycle N are not always the same ones that recycle the most phosphorus, thus making it difficult for conservation programmes to prioritise which species to protect.
The authors conclude that the consequences of declining fish diversities will depend upon the order of extinction and the compensatory responses from surviving species. Patterns of species composition and species-specific functional traits can give rise to important differences in the impacts of extinctions. Nevertheless, eroding aquatic diversity is likely to have detrimental effects on ecosystem functioning by altering nutrient recycling. As fish play an important role in the rapid recycling of nutrients in tropical aquatic ecosystems, fish extinction can have serious implications for ecosystem productivity and could therefore jeopardise freshwater tropical fisheries.
Source: McIntyre P.B., Jones L.E., Flecker S.A., Vanni M.J. (2007) “Fish extinction alter nutrient recycling in tropical freshwaters”, Proceedings of the National Academy of Science in the United States of America, vol 104(11):4461-4466 Contact: [email protected] Theme(s): Biodiversity, Marine Ecosystems. Opinions expressed in this News Alert do not necessarily reflect those of the European Commission To cite this article/service: "Science for Environment policy" : European Commission DG Environment News Alert Service, edited by BIO Intelligence Service.
