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Earth’s health reaching critical tipping point, says scientist

March 25, 2010 By vani Leave a Comment

Washington, March 25 (ANI): In a new study, an expert at the University of Minnesota (U of M), US, has said that earth’s health is reaching critical tipping point and climate change is just one of the problems that the planet faces.

The study, by U of M professor Jon Foley, has been featured as part of the cover story of Scientific American magazine’s April issue.

Foley makes the case for why we need to pay more attention to all environmental processes that contribute to the Earth’s health.

In his article, “Boundaries for a Healthy Planet,” he argues that while climate change gets ample attention, species loss and nitrogen pollution exceed safe limits by greater degrees.

In addition, other environmental processes such as ocean acidification and stratospheric ozone depletion are also moving toward dangerous thresholds.

Foley calls for swift action to address these developments and push back from planetary “tipping points” that would thrust the global environment and human life into dangerous new territory.

First steps include promptly switching to low-carbon energy sources, curtailing land clearing and revolutionizing agricultural practices. (ANI)

Filed Under: International News Tagged With: agricultural practices, Ample Attention, climate change, energy sources, Environmental Processes, first steps, Global Environment, Jon Foley, Land Clearing, New Territory, Nitrogen Pollution, Ocean Acidification, Professor Jon, scientific american, Scientific American Magazine, species loss, stratospheric ozone depletion, swift action, thresholds, tipping point

Ozone depletion reduces CO2 uptake of Southern Ocean

August 9, 2009 By admin Leave a Comment

Washington, August 9 (ANI): In a new research, scientists have determined that depletion in the ozone layer is reducing the atmospheric carbon dioxide (CO2) uptake of the Southern Ocean.

Most current models predict that the strength of the Southern Ocean CO2 sink should increase as atmospheric CO2 rises, but observations show that this has not been the case.

To help resolve this discrepancy, scientists Andrew Lenton and Nicolas Metzl, along with other researchers, considered the effects of stratospheric ozone depletion, which most previous studies had not included.

They compare coupled carbon-climate models with and without ozone depletion and find that including ozone depletion produced a significant reduction in Southern Ocean carbon uptake, in good agreement with observed trends.

The simulations show that ozone depletion, combined with increased atmospheric greenhouse gas concentration, drives stronger winds above the Southern Ocean.

These stronger winds bring more carbon-rich deep water to the surface, which reduces the ocean’s ability to absorb more carbon dioxide from the atmosphere.

The researchers also found that ozone depletion increases ocean acidification. They suggest that future climate models should take stratospheric ozone into account. (ANI)

Filed Under: Science News Tagged With: ability, account, acidification, agreement, Andrew Lenton, ANI, atmosphere, atmospheric carbon dioxide, Atmospheric Greenhouse, August, carbon, Carbon Uptake, case, climate, Climate Models, co2, concentration, deep water, depletion, dioxide, discrepancy, Gas, Gas Concentration, greenhouse, greenhouse gas, layer, Lenton, Nicolas Metzl, ocean, Ocean Acidification, Ocean Current, ozone, Ozone Layer, reduction, Research, research scientists, simulations, Southern Ocean, stratospheric ozone depletion, strength, surface, uptake, Washington, water

How humans have widened the tropics

February 26, 2009 By admin Leave a Comment

Washington, Feb 26 (ANI): In a new study, scientists have shown how the tropics have widened due to human environmental effects.

Previous studies have shown that the width of the tropical belt has been increasing since at least the late 1970s, based on a variety of indicators.

Jian Lu, and his team at the National Center for Atmospheric Research, Boulder, Colorado, US, use one such indicator to show that the observed widening of the tropics can be accurately replicated by an atmospheric general circulation model forced by the observed evolution since 1958 of global sea surface temperatures and sea ice distributions along with the direct radiative effects from natural and human-generated sources.

The indicator is the frequent occurrence at high altitudes of the boundary between the troposphere and the stratosphere (tropopause).

The researchers then contrasted this simulation with one forced only by sea surface temperatures and sea ice distributions and found that the widening trend of the tropics can be attributed entirely to direct radiative forcing, in particular those related to greenhouse gases and stratospheric ozone depletion.

In fact, modifying sea surface temperatures actually causes no significant change in the width of the tropics and in some simulated seasons leads to a tropical belt contraction. (ANI)

Filed Under: Science News Tagged With: 1970s, boulder colorado, circulation model, contraction, distributions, frequent occurrence, global sea surface, greenhouse gases, high altitudes, lu, national center for atmospheric research, radiative effects, sea ice, sea surface temperatures, simulation, stratosphere, stratospheric ozone depletion, tropical belt, tropics, troposphere

Earth’s health reaching critical tipping point, says scientist

Ozone depletion reduces CO2 uptake of Southern Ocean

How humans have widened the tropics

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