Saving Humanity: Reforest the Tropics
Planting trees remains one of the most cost-effective means of drawing excess CO2 from the atmosphere. Therefore, reforesting the tropics will act as carbon sinks, alleviating the greenhouse effect. There are millions of acres of tropical pastures available. When given proper care, orchard tropical trees bear fruit up to 50 years or more.
PLANT MORE TREES around the world — because… trees are carbon storage (sequestration) experts.
The United States has cut down over 50% of its original forests in the last 400 years, which would have absorbed 50% of its carbon emissions. Once carbon dioxide goes into the atmosphere it stays there for a long time. About 33% continues to cause damage after 100 years.
It is estimated by the U.S. Forest Service that all the forests in the United States, combined, sequestered approximately 309 million tons of carbon each year from 1952 – 1992, offsetting approximately 25 percent of human-caused emissions of carbon during that period in the United States.
The world’s forests remove over one quarter (27%) of current annual human carbon emissions from the atmosphere each year, the equivalent of about 2.4 billion tons of carbon according to the latest published scientific research.
The tropical zones of the world seem particularly attractive for forestation because of the high rates of productivity that can potentially be attained there, and because there appear to be large areas of land that would benefit from tree planting.
Young trees absorb CO2 at a rate of 13 pounds per tree each year. Trees reach their most productive stage of carbon storage at about 10 years at which point they are estimated to absorb 48 pounds of CO2 per year and one acre of trees absorbs 2.6 tons of CO2 every year.
For every ton of new-wood growth, about 1.5 tons of CO2 are removed from the air and 1.07 tons of life-giving oxygen is produced.
POSITIVE GROWTH OF TREES IN THE TROPICS
Borial zone trees absorb 0.5 Pg C/yr compared to Temperate zone trees at 0.7 while tropical trees grow at the rate of 1.3 or 185% more efficiently year-round than trees in a temperate zone
Younger and faster growing orchards generally have higher annual sequestration rates and they are given higher personal care of proper fertilizer and water: add a further 25% increase. We conclude there is an additional (185% + 25%) or 210% increase in the value of CO2 absorption.
This map shows solar-induced fluorescence, a plant process that occurs during photosynthesis, from Aug. through Oct. 2014 as measured by NASA’s Orbiting Carbon Observatory-2. This period is springtime in the Southern Hemisphere and fall in the Northern Hemisphere. Photosynthesis is highest over the tropical forests of the Southern Hemisphere but still occurs in much of the U.S. Grain Belt. The northern forests have shut down for the winter.
Commonwealth Scientific and Industrial Research Organisation (Australia), CSIRO forests researcher Dr Canadell estimate that tropical forest re-growth is removing an average of 1.6 billion tons of carbon per year. Combining the uptake by established and forest re-growth plus emissions from deforestation, the world’s forests have a net effect on atmospheric CO2 equivalent to the removal of 1.1 billion tons of carbon every year.
In terms of cutting emissions a 53% reduction in 2010 emissions is equal to almost 20 Gt of CO2 emissions. For some perspective, global emissions from coal fired electricity generation were about 9 Gt CO2 in 2010.
The larger predictions from climate models are due to the fact that, within these models, the more important greenhouse substances, water vapor and clouds, act to greatly amplify whatever CO2 does. This is referred to as a positive feedback. It means that increases in surface temperature are accompanied by reductions in the net outgoing radiation – thus enhancing the greenhouse warming. … Satellite observations of the earth’s radiation budget verify this fact.
VALUE OF TROPICAL TREES
Moisture created by the rain forests travel around the world. America’s Midwest is affected by the forests in the Congo which is roughly a distance of 6000 miles. Moisture from the Amazon falls as far away as Texas.