The Benefits of Cooperation Under Uncertainty: the Case of Climate Change

This article presents an analysis of the behaviour of countries defining their climate policies in an uncertain context. The analysis is made using the S-CWS model, a stochastic version of an integrated assessment growth model. The model includes a stochastic definition of the climate sensitivity parameter. We show that the impact of uncertainty on policy design critically depends on the shape of the damage function. We also examine the benefits of cooperation in the context of uncertainty:We highlight the existence of an additional benefit of cooperation, namely risk reduction

Impacts of global changes and extreme hydroclimatic events on macroinvertebrate community structures in the French Rhône River

We assessed the temporal changes in and the relationships between the structures of the macroinvertebrate communities and the environmental conditions of the French Rhône River (the river from Lake Geneva to the Mediterranean Sea) over the last 20 years (1985–2004). Multisite environmental and biological datasets were analysed using multiple CO-inertia analysis (MCOA) and Procrustean analysis. Changes in environmental conditions were mainly marked by an improvement in water quality between 1985 and 1991 and by an increase in water temperature from 1985 onwards due to climate change. Improvement in water quality seemed to delay changes in community structures under global warming. We then observed trends in community structures coupled with high temperatures and a decrease in oxygen content. Interestingly, we observed both gradual changes and rapid switches in community states. These shifts seemed coupled to extreme hydroclimatic events (i.e. pulse disturbances). Floods and the 2003 heatwave enhanced the development of eurytolerant and invasive taxa which were probably able to take advantage of gradual warming environmental conditions. Despite various site-specific “press” constraints (e.g. hydropower schemes, nuclear power plants), similar changes in community structures were observed along the French Rhône River. Such consistency in temporal processes at large geographical scales underlined the strength of hydroclimatic constraints on community dynamics compared to specific local disturbances. Finally, community structures did not show any sign of recovery, and their relative sensitivities to extreme hydroclimatic events seemed to increase with time. Thus, our results suggest that global changes may reduce the resilience of current community states

Invasive Salix fragilis: altered metabolic patterns in Australian streams

Willows (Salix spp.) are listed as a weed of national significance in Australia. Despite this recognition, functional effects of willows on streams compared to native species are largely unknown. Leaves supply carbon to instream food webs, but may also act as surfaces for biofilm, and thus can contribute in different ways to stream metabolism. Salix fragilis L. and Eucalyptus camaldulensis Dehnh. leaves that had been colonised by biofilms were placed into chambers in laboratory conditions, and metabolic rates were measured. Gross Primary Production (GPP) of biofilms on E. camaldulensis leaves after 10 days of incubation were significantly greater than biofilms on S. fragilis leaves. S. fragilis leaves displayed greater rates of microbial decomposition per leaf mass. Autotrophic biomass was one hundred fold greater on E. camaldulensis leaves. The biofilm on E. camaldulensis leaves is likely to support a greater population of grazers, compared to S. fragilis. The alien S. fragilis leaves, therefore, are fuelling a different component of the food web to endemic E. camaldulensis leaves. Endemic Eucalyptus spp. leaves play an important role in temperate Australian streams as a substrate for autotrophic growth and provide a year round pathway for carbon to reach secondary invertebrate consumer