| Garrett Nagle - 1998 - 134 pages
...resources do not exceed their rates of regeneration • the rates of use of non-renewable resources do not exceed the rate at which sustainable renewable substitutes are developed. With these changes it is possible to see a very different pattern from the one drawn in 1972. Beyond... | |
| Brian Nattrass, Mary Altomare - 1999 - 244 pages
...resources should not exceed their rates of regeneration; its rates of use of non-renewable resources should not exceed the rate at which sustainable renewable substitutes are developed; and its rates of pollution emissions should not exceed the assimilative capacity of the environment. "s... | |
| Jonathan M. Harris - 2003 - 308 pages
...renewable resources do not exceed their rates of regeneration; • rates of use of nonrenewable resources do not exceed the rate at which sustainable renewable substitutes are developed; • rates of pollution emission do not exceed the assimilative capacity of the environment. Contemporary... | |
| Paul Upham - 2003 - 266 pages
...resources do not exceed their rates of generation. • The rates of use of non-renewable resources do not exceed the rate at which sustainable renewable substitutes are developed. • The rates of pollution emission do not exceed the assimilative capacity of the environment. Air... | |
| William Richard Black, Peter Nijkamp - 2002 - 598 pages
...resources do not exceed their rates of regeneration; (2) its rates of use of non-renewable resources do not exceed the rate at which sustainable renewable substitutes are developed; and (3) its rates of pollution emission do not exceed the assimilative capacity of the environment. However,... | |
| Bill Wallace - 2005 - 232 pages
...renewable resources do not exceed their rates of regeneration. 2. Rates of use of nonrenewable resources do not exceed the rate at which sustainable renewable substitutes are developed. 3. Rates of pollution emission do not exceed the assimilative capacity of the environment." In consideration... | |
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