Rushing Rivers Institute

Rushing Rivers Institute

Rushing Rivers Institute
Type Environmental Non-Profit
Founded 2007
Location Amherst, Massachusetts, United States
Director Dr. Piotr Parasiewicz

Rushing Rivers Institute is a non-profit organization in the United States directed by Piotr Parasiewicz to implement river science in the preservation of water resources for the environment and human use. The Institute provides on-demand services, integrating physical and ecological sciences, professional training, and project review services to protect and restore rivers.[1]

Services

Rushing Rivers Institute provides a variety of services applicable to:

Technical Assistance is provided by R.R.I's employees in the assessment of instream habitat for fish and invertebrates, simulation modeling and the design of nature-like fishways.

Project Review is offered as independent, technical review of the quality of environmental impact assessment projects, specifically with regard to the impact on the aquatic fauna due to water withdrawals, hydro-power, landfills and development.

Models are developed for the description of riverine habitat to determine the ecological status, quantify the effect of various restoration measures, flow management as well as predict the impact of development and climate change on the aquatic fauna. The following models are used in these procedures:

Biological Assessment

Physical Assessment

Software/Technology development: Rushing Rivers develops a software facilitating various aspects of river habitat modeling. SIM-Stream software is a front-end of an Access Database performing data management and calculations of habitat models. River Lab is a suite of input forms that use photo annotation technology for habitat surveys with ARC-Pad, River-pixelator is a software for aerial image pixel classification and gathering data from sensor networks.

Education/Community Services

Current projects

Reconnaissance study on Wekepeke Brook

Rushing Rivers Institute was approached by Nestlé Waters to investigate the ecological impacts of spring water withdrawals on fish and invertebrate habitat in adjacent streams, and to develop assessment and mitigation methodology applicable for site determination. This pilot project should use, as a case study, the site on Wekepeke Brook, a tributary of the Nashua River in central Massachusetts. This site has recently been investigated for possible development by the corporation and the project takes advantage from the available materials and work already invested in data collection. In collaboration with environmental consultants already involved in the planning process and the staff of Nestlé Waters, this scientific study of the watershed is conducted in a number of incremental steps leading to the creation of a transferable method for ecologically sound impact assessment, prevention and mitigation. The goal is to create a groundbreaking approach in corporate resource stewardship, where the company takes responsibility for the improvement of the ecological status of the rivers and streams rather than focusing solely on impact mitigation. The gains in habitat for fish and invertebrates will be applied as a metric for measuring the project impact and of ecological improvements repairing damage caused by the historical use of rivers as well as by current uses of unrelated parties. The catalog of improvement options and recommendations will be presented to the company as a result. Rushing Rivers conducts this project in collaboration with its associates and other independent scientists. To assure scientific credibility the project will undergo independent peer-review in a scientific workshop including renowned river scientists and resource management organizations.

Development of draft environmental flow recommendations for the Saugatuck River watershed

The Nature Conservancy in consultation with the Aquarion Water Company of Connecticut, Inc. contracted with a scientist from Rushing Rivers Institute to conduct a scientific investigation of the ecosystem components of the Saugatuck River system, with a primary focus on those portions of the Saugatuck and Aspetuck rivers that lie below Aquarion’s reservoir dams. The study will focus their review on riverine fish and other significant plant and animal elements of the river system that may include sensitive or threatened taxa; hydrology and geomorphology; physical and chemical characteristics of the river and its tributaries; and floodplain ecosystems associated with the lower Saugatuck river system and on the development of the MesoHABSIM model. The model and review will identify, to the extent possible, the specific flow requirements necessary to meet the needs of these species and communities throughout their various life stages. The review should also describe what is known about the current status of river ecosystem health in the Saugatuck in relation to what is known about reference conditions and serve as a knowledge base for the environmental flow recommendations workshop, planned as a part of the Ecologically Sustainable Water Management (ESWM) framework from the Saugatuck River.

Lamprey River

The goal of the Lamprey River instream flow assessment and water management plan is the determination of Protected Instream Flow (PISF) values for designated reaches. PISF values must be established that protect legislatively mandated instream public uses, outstanding characteristics, and resources entities, which may constrain water use by affected water users in the Lamprey River basin. Consideration of PISF levels in relation to current and projected water use patterns in the basin will be an integral component of the water management plan.

Under leadership of Normandeau Associates Inc., Rushing Rivers is mapping the Lamprey River for specific fish habitats to develop a water management plan. Besides habitat mapping, the study includes scuba diving in impoundments, monitoring for mussels, dragonfly nymphs and fish and the computation of physical habitat model. The influence of water levels in riparian and emergent wetlands on aquatic habitat and endangered species are modeled by scientists from Normandeau Associates. The hydrological analysis, including concurrent flow measurements, simulation of pre-colonial time series and ground water monitoring are conducted by UNH hydrologists. The collected data and models will support multi-criteria decision analysis, which is a foundation for a water management plan for the Lamprey River. There are many groups of stakeholders involved in the development of the plan, and the study team coordinates with involved parties and the state of New Hampshire.

This pilot program of New Hampshire for the determination of instream flows for designated river segments is the culmination of years of discussions on the need for, geographic scope of and method of instream flow regulation statewide. It will evaluate both the scientific methodology for establishing an instream flow as well as the institutional framework developed to provide technical oversight and to solicit input from all stakeholders. This river that was affected by humans in many ways from recreation to water withdrawals and water returns from a wastewater treatment plant is the first project for Rushing Rivers in New Hampshire.[3]

References

  1. Webmaster, "About Us - Rushing Rivers Institute". Rushing Rivers Institute. October 27th 2008 <http://www.rushingrivers.org/aboutUs/AboutUsHome.html>.
  2. Webmaster, "Services, Rushing Rivers Institute". Rushing Rivers Institute. October 27th 2008 <http://www.rushingrivers.org/services/servicesHome.html>
  3. Webmaster, "Current Projects - Rushing Rivers Institute". Rushing Rivers Institute. October 27th 2008 <http://www.rushingrivers.org/currentProjects/currentProjectsHome.html>.
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