Environmental Management: Principles and practice
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5 2020 03 04!03 12 11 PM
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- Biodiversity
- Biogeochemical and biogeophysical cycles
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The ecosystem concept
The ecosystem concept may be applied to natural or human-modified conditions. The latter include urban ecosystems and agroecosystems, although these are not true, discrete units in terms of energy flows, function and so on. Ecosystem FIGURE 7.3 A glacier calving into the sea, Cumberland Bay, South Georgia. Evidence shows considerable change in extent of glaciers on this island over the last 10,000 years. Climate is not static. SCIENCE 135 management is the application of the ecosystem concept (Golley, 1993). Slocombe (1993) was optimistic that the ecosystem concept might offer a route to integrating environmental management and development planning that would lead to sustainable development (the value of the ecosystem approach is discussed in chapter 9). Biodiversity Ecological diversity refers to the range of biological communities that interact with each other in a given environment. Biodiversity (biological diversity) refers to species diversity plus genetic diversity within those species. Loss of biological diversity occurs when species extinctions exceed the rate of species creation. Extinction is a natural process, sometimes sudden, perhaps catastrophic, otherwise an ongoing, gradual process. However, humans have greatly accelerated the rate of extinctions. Loss of biodiversity is one of the most serious problems facing environmental managers. Biogeochemical and biogeophysical cycles Within the biosphere, cyclic processes move and renew supplies of energy, water, chemical elements and air. These cycles affect the physical environment and organisms, and some are affected by life forms. Although upset by occasional catastrophic events (e.g. volcanic eruptions, planetesimal strikes), biogeochemical and biogeophysical cycles are assumed to reach a state of dynamic stability. Nevertheless, environmental managers must not assume an unchanging natural environment, and human activity is affecting global cycles and might trigger serious runaway problems (i.e which are difficult to solve). There are cycles which are crucial for the nutrition of organisms: the maintenance of atmospheric gas mix and maintaining global temperature within acceptable limits, including water, oxygen, carbon dioxide, nitrogen, phosphorus, sulphur (there are over 30 known biogeochemical cycles). Some involve gases and have a turnover of as little as a few days; some involve sediments, and are so slow (with turnovers of perhaps millions of years) that the material is non-renewable as far as humans are concerned. Biogeochemical and biogeophysical cycles are not fully understood, for example, there is much to learn about the cycling of carbon. Without better insight, accurate modelling and prediction of global change is very difficult. Biogeochemical and biogeophysical cycles can be classified as: (1) natural, (2) upset by humans and (3) recycling (managed by man and sustainable) (Chadwick and Goodman, 1975:4). Many of the first group have already been converted to the second and the threat of this grows; conversion of these to the third group is an important goal for environmental managers. |
