Tuesday, September 05, 2006

"Sound" Technology Used in Sediment Research

You've heard the expression "putting your ear to the ground." But, putting your ear to the water? That's what technology is helping Agricultural Research Service (ARS) scientists in Oxford, Miss., do.Hydraulic engineers Roger Kuhnle and Daniel Wren of the ARS National Sedimentation Laboratory (NSL) and collaborators are using acoustics and automated sampling to assess how sediment impacts waterways and dams.

They're applying acoustic science to measuring the rate at which sand and gravel are transported in streams. The resulting data can give insight about upstream erosion and--with help from computer modeling--fortify predictions about sediment's impacts on water bodies and related structures.This research is part of work by scientists in Oxford and at other ARS locations that's aimed at helping agriculture and waterways coexist in a cost-effective, environmentally friendly fashion.

At NSL, one research area focuses on how erosion, soil runoff, and urban and industrial activities affect water quality.As part of this work, Wren and other collaborators are improving use of a core-drilling technique, called "vibracoring," for gauging sediment's impact on aging reservoirs. They're particularly interested in how vibracoring helps detect rates and patterns of sediment collection that affect reservoirs' holding capacities.

Meanwhile, data collected from the Mississippi Delta region\'s waterways is helping NSL scientists improve computer programs and models used to evaluate how different management practices can affect entire watersheds.Agricultural engineer Ron Bingner is working with water-quality-prediction technology known as AnnAGNPS (for Annualized Agricultural Nonpoint Source) to simulate environmental processes and evaluate their impact on downstream and adjacent watershed elements.

And hydraulic engineer Eddy Langendoen is using field studies and a computer modeling technique he created called "CONCEPTS" (for Conservational Channel Evolution and Pollutant Transport System) to assess the stability of specific channel reaches.

Read more about this research and other ARS projects related to a healthy environment in the August 2006 issue of Agricultural Research magazine, available online at:http://www.ars.usda.gov/is/AR/archive/aug06/water0806.htm

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AGRI-INFO/SEPTEMBER 5, 2006



TITLE: SOUND TECHNOLOGY USED IN SEDIMENT RESEARCH


ALAM BA NINYO NA ANG MGA EKSPERTO AY GUMAGAMIT NG TEKNOLOHIYA NA NAGLALAYONG MATAYA ANG EPEKTO NG SEDIMENT SA MGA DALUYAN NG TUBIG AT MGA DAM?

ITO AY SA PAMAMAGITAN NG TINATAWAG NA ACOUSTIC SCIENCE PARA MASUKAT NA MABUTI ANG RATE KUNG PAANO NADADALA O NATATANGAY NG TUBIG ANG MGA BUHANGIN AT GRAVA.

ANG RESULTA NG GANITONG PAG-AARAL AY MAKATUTULONG NG MALAKI PARA SA TINATAWAG NA UPSTREAM EROSION AT SA PAMAMAGITAN DIN NG COMPUTER MODELLING AY MAGKAKAROON NG SAPAT NA BATAYAN KUNG GAANO KATINDI ANG EPEKTO NG SEDIMENTS NA ITO SA MISMONG KATUBIGAN AT MGA STRAKTURA.

ANG GANITONG MGA HAKBANG BAGAMAN AY PINASIMULAN SA US AY MAAARI DING GAWIN DITO SA ATING BANSA, PARA MAKATULONG NG MALAKI SA AGRIKULTURA AT MGA DALUYAN NG TUBIG AT MATIYAK ANG MAGANDANG PAGTUTULUNGAN NG MGA ITO SA KABUHAYAN NG MGA MAGSASAKA MAGING SA BENEPISYO NG KALIKASAN.

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