The Hudson River Ecosystem

The Hudson River Ecosystem
Author: Karin E. Limburg
Publisher: Springer Science & Business Media
Total Pages: 433
Release: 2012-12-06
Genre: Science
ISBN: 1461248744

The Ecosystems Research Center (ERC) was established at Cornell U ni versity in October 1980 by the Environmental Protection Agency (EPA) with the goals of: 1. Identifying fundamental principles and concepts of ecosystems sci ence and the determination of their importance in understanding and pre dicting the responses of ecosystems to stress, the description of the basic mechanisms that operate within ecosystems, and an examination of the stability of ecosystem structure and function in the face of stress. 2. Testing the applicability of those theoretical concepts to problems of concern to the EPA through a consideration of retrospective and other case studies. In line with these goals, the Hudson River ecosystem provided the basis for the first major retrospective study undertaken by the ERC. The goal of the project was to develop recommendations concerning how ecosystem monitoring can and should be carried out in support of EPA's regulatory responsibilities. Our hope was and is that the experience gained from this study will be broadly applicable to a range of manage ment problems involving estuarine ecosystems, and will lead to more effective regulation.

Fisheries Research in the Hudson River

Fisheries Research in the Hudson River
Author: C. Lavett Smith
Publisher: SUNY Press
Total Pages: 432
Release: 1988-01-01
Genre: Technology & Engineering
ISBN: 9780887064555

This book addresses specific water quality and pollution problems and documents the changes that occurred during the critical transition period when PCB dumping was discontinued and water treatment plants came into increased use. It will appeal to fishery biologists working with Atlantic coast species, people involved with estuaries worldwide, and to all environmentalists interested in the history of the landmark Hudson River Settlement Agreement. The signing of the Hudson River Settlement Agreement ended more than a dozen years of controversial court battles over the placement of electric generating plants on the Hudson River estuary. Much of this agreement was based on original field research, the most compelling of which is found in this book. Fisheries Research in the Hudson River includes a summary of existing fisheries data bases, with comments on their strengths and weaknesses and a guide to their availability, as well as discussions of the natural history of striped bass, white perch, river herrings, tomcod, sturgeon, and a very important food source, the amphipod gammarus tigrinus. It also proposes a management plan for sturgeon, a plan based on an age-structured population model that demonstrates the practical application of basic scientific data.

FWS/OBS.

FWS/OBS.
Author:
Publisher:
Total Pages: 868
Release: 1976
Genre: Ecology
ISBN:

Ecological Effects of Electricity Generation, Storage and Use

Ecological Effects of Electricity Generation, Storage and Use
Author: Peter Henderson
Publisher: CABI
Total Pages: 241
Release: 2018-05-22
Genre: Science
ISBN: 1786392011

This book reviews the past, present and future generation and use of electricity. While noting the importance of electricity to the well-being of people, it argues that all means of electricity generation have adverse ecological consequences. The ecological effects of all the main forms of electricity generation, storage and transmission are reviewed in 14 chapters. The chapters briefly cover the engineering and physics of each method of electricity generation followed by a description of the different ways in which the technology interacts with the natural world. Finally, sections consider the importance of these impacts and how they can be mitigated or avoided. A final chapter summarizes the issues and emphasizes that the only way to truly minimize the impacts of electricity generation is to reduce our consumption and transmission. Future efforts should continue to focus on increasing the efficiency of light production, refrigeration, electrical appliances and batteries.