|
| Andhra Pradesh ~ India ~ International ~ City ~ Entertainment ~ Business ~ Bullion ~ Forex ~ Sports ~ Technology ~ Health ~ Features |
|
Home
/ Technology News / 2008 / January 2008 / January 30, 2008 River plants might play a major role in the health of ocean coastal waters |
Stem cell heart surgery may spell the end for transplantation
British scientists have developed a new technique that can rebuild a severely damaged heart, and one day, might replace the need for transplantation. ANI
A new insight into the turbulent atmosphere of Venus
New images taken by instruments on board ESAs (European Space Agencys) Venus Express have provided insight into the turbulent atmosphere of our neighbouring planet. ANI
ESA tests laser to measure atmospheric CO2
A recent ESA (European Space Agency) campaign has demonstrated how a technique using lasers could be employed to measure carbon dioxide (CO2) in the atmosphere. ANI
A new research at MITs Department of Civil and Environmental Engineering has suggested aquatic plants in rivers and streams may play a major role in the health of large areas of ocean coastal waters.
Washington, Jan 30 : A new research at MIT's Department of Civil and Environmental Engineering has suggested aquatic plants in rivers and streams may play a major role in the health of large areas of ocean coastal waters.
This research describes the physics of water flow around aquatic plants and demonstrates the importance of basic research to environmental engineering.
This new understanding can be used to guide restoration work in rivers, wetlands and coastal zones by helping ecologists determine the vegetation patch length and planting density necessary to damp storm surge, lower nutrient levels, or promote sediment accumulation and make the new patch stable against erosion.
Traditionally, people have removed vegetation growing along rivers to speed the passage of waters and prevent flooding.
But, in recent years, that practice has changed. Ecologists now advocate replanting, because vegetation provides important habitat.
In addition, aquatic plants and the microbial populations they support remove excess nutrients from the water.
The removal of too many plants contributes to nutrient overload in rivers, which can subsequently lead to coastal dead zones-oxygen-deprived areas of coastal water where nothing can survive.
One well-documented dead zone is in the Gulf of Mexico, fed by nutrient pollution from the Mississippi River, which grows to be as large as the state of New Jersey every summer.
ANI
