Heated aquatic microcosms for climate change experiments

Ponds and shallow lakes are likely to be strongly affected by climate change, and by increase in environmental temperature in particular. Hydrological regimes and nutrient cycling may be altered, plant and animal communities may undergo changes in both composition and dynamics, and long-term and difficult to reverse switches between alternative stable equilibria may occur. A thorough understanding of the potential effects of increased temperature on ponds and shallow lakes is desirable because these ecosystems are of immense importance throughout the world as sources of drinking water, and for their amenity and conservation value. This understanding can only come through experimental studies in which the effects of different temperature regimes are compared. This paper reports design details and operating characteristics of a recently constructed experimental facility consisting of 48 aquatic microcosms which mimic the pond and shallow lake environment. Thirty-two of the microcosms can be heated and regulated to simulate climate change scenarios, including those predicted for the UK. The authors also summarise the current and future experimental uses of the microcosms

Heated aquatic microcosms for climate change experiments

We are experiencing global climate change (e.g. Houghton et al. 1996; Huanget al. 2000). One of the main features of this change is a significant andcontinuing rise in temperature, attributable at least in part to anthropogenicenhancement of the greenhouse effect (Kerr 2000). The projected magnitudeand rapidity of this phenomenon is cause for major concern about how thebiosphere will respond