Tag Archive for: forestry


New Agriculturist
reports that International Small Group & Tree Planting Program (TIST) has begun to train over 50,000 farmers in eastern Kenya on carbon trading. TIST reports that it has planted over six million trees in Kenya. TIST is involved in tree planting ventures across Africa and Asia.

In this particular initiative, TIST acts as a broker between farmers with trees and individuals or companies who wish to offset their carbon footprint. TIST trains locals to track farmers’ trees using hand-held computers and GPS devices. The trained locals record the location, number, size, species, and take photos that are uploaded and posted online. Three to six months after planting, a tree is eligible for carbon credits that earn farmers 1.50 shillings (US $0.02) per tree annually.

Besides monetary benefit, the tree planting also provides farmers more secure water storage during rain and drought and aid soil health and fertility. TIST is thrilled with the results of this initiative, which are leading to more sustainable land management practices.

 

Photo Credit: redd-net.org

The conservation blogosphere is covered in REDD+, but what is it? REDD+ is simply an acronym for Reduce Emissions from Deforestation and Forest Degradation. It aims to foster conservation, sustainable management of forests, and enhance forest carbon stocks through local incentives by creating a financial value for carbon stored in trees. Once this carbon is assessed and quantified, developed countries pay developing countries carbon offsets for their standing forests. By doing so, green house gas emissions can be lowered in a cost-effective way. REDD+ is different from traditional methods because “unlike afforestation and reforestation activities, which generally cause small annual changes in carbon stocks over long periods of time, stemming deforestation causes large changes in carbon stocks over a short period of time.” It also has the benefits of addressing water resource management, soil erosion, flooding reduction, biodiversity, and other issues.

Where is it used? USAID provides a database of current projects. REDD is also being proposed after a recent publication in Nature Climate Change released a study that tropical rainforests store 229 billion tons of carbon in their vegetation. This study, through The Woods Hole Research Center, used new satellite-based assessment, including cloud-penetrating LiDAR (less degree of error).  The findings are available in a free downloadable carbon density map here.

 

Biomass Map, Photo Credit: WHRC

 

Photo Credit: CARPE

The Congo Basin is a critical tropical forest that supplies vital regional and worldwide ecological services. It is one of the largest tropical rainforests in the world, home to thousands of endemic plant and animal species such as lowland gorillas, chimpanzees, bonobos, and forest elephants. More than eighty million people depend on its abundance of timber and other natural resources for their livelihoods. A paradoxical note is that despite the richness of the Congo Basin, the people near it are some of the poorest in Africa. The forest is constantly cleared to make room for agricultural pursuits and to feed urbanized areas’ hunger for lumber. In addition to deforestation and forest degradation, illegal hunting and commercial bushmeat trade are major threats to biodiversity.

The Central African Regional Program for the Environment (CARPE) is a USAID longterm and regional initiative formed in 1995 in association with a consortium of government and NGO partners that concentrates its resources on six principal forested countries in Central Africa: Cameroon, Central African Republic, Democratic Republic of Congo, Equatorial Guinea,  Gabon, and the Republic of Congo. Uganda, Rwanda, Chad, Burundi, Rwanda and Sao Tome Principe are also involved in the initiative. CARPE is intended to be a 20-year process, resulting in complete local guidance. A major objective of CARPE is to protect forest resources by reducing degradation and protecting biodiversity. Modern tools such as Landsat satellite-derived maps, remote sensing, GIS, and geospatial databases are used for planning and monitoring of the forest. With this information, threatened species are under the protection of local communities and logging is controlled.

 

Prior to the development of CARPE, vast areas of the Congo Basin were unknown. Since then, a number of initiatives and activities have taken place, resulting in an overall evaluation in 2011. In this evaluation, CARPE was deemed extremely successful for introducing large-scale ecosystem management approaches. Tens of thousands of individuals have been trained in a variety of conservation methods and techniques. With   empowerment through such training and motivation that educates and organizes local groups to play an active role in forest and biodiversity conservation programs, civil society is being strengthened. This is seen as critical, circumventing the often inefficiently administered and economically weak centralized governments. The tools practiced allow for an understaffed patrol to communicate with a wider audience, limiting the “weak state management of these resources (that) creates a vacuum where local populations are often stripped of benefits as stronger or elite groups including private companies expropriate natural resources at sub-national and local levels.”Where will CARPE head in the coming years? The implementation of land use management plans for micro- and macro- zones, strengthening of government capacity and transparency are key.

 

Last week The Guardian announced that we’re now able to see the Amazonian rainforest as never seen before. A group of scientists, using LIDAR (Light Detection and Ranging) took images from a plane called the Carnegie Airborne Observatory. The images were taken by bouncing a laser beam off of the forest canopy at 400,000 times per second. The resulting images are vibrant, showcasing variation in biodiversity at unprecedented detail. The new technology will be used to manage the ecosystem, monitoring for signs of deforestation and degradation.

A technician reads information, transmitted from a microchip attached to a tree, with his GPS device during a presentation of the Monitoring System Electronic Tracking and Forestry project in Nova Mutum in Mato Grosso state, August 28, 2010.

The identifiable roar of a chainsaw brings a gigantic Amazonian tree in Nova Mutum, Brazil to the forest floor.

This could be any other other day in the South American country where trees fall frequently each year in Brazil’s portion of the world’s largest forest. There is only one small detail that makes this one a little different: it is a “smart” tree; a microchip is attached to its base and contains data about its location, size and who cut it down. Each microchip tells the story of the individual tree’s life, from the point that it landed on the ground to the sawmill that processed and sold the wood, it has key information for buyers who want to know where it came from.

Though it is only a small pilot project, its leaders say the microchip system has the potential to be a big step forward in the battle to protect the Amazon. The chips allow land owners using sustainable forestry practices to distinguish their wood from that acquired through illegal logging that destroys swathes of the forest each year. Forestry engineer Paulo Borges from the organization Acao Verde, or Green action, which manages the project on a large farm, remarks:

People talk a lot these days about wood coming from sustainable forestry practices — this is a system that can prove it…

Brazil is under international pressure to reduce deforestation that destroys thousands of square miles of the Amazon each year, making the country one of the world’s biggest sources of greenhouse gasses. The project is part of a growing trend toward lumber certification that gives buyers a guarantee the wood was produced without damaging the forest it came from. Acao Verde says widespread use of chips in trees would help eliminate corruption that allows illegally harvested wood to be “cleaned up” through bogus certification papers, and aid in spurring Brazil’s sustainable forestry movement. Similar projects in Bolivia and Nigeria use technology such as bar codes readers or satellite tracking to help crack down on illegal logging and preserve delicate ecosystems. Acao Verde collected data on trees in 100 hectares (247 acres) of forest on the Caranda farm, which produces soy and corn but maintains native vegetation on a third of the land as required by law.

Forestry engineers attach chips contained in white plastic squares similar to office I.D. cards to each tree.

Landowners who adopt the system could cut down on time-consuming paperwork and reduce the need for inspections by environmental authorities, which for years have had tense relations with agribusiness in the region. Patrik Lunardi, 26, whose family allowed the project to be carried out on their farm see the chips as a transparent way to show their  sustainable farming techniques:

People out there still think farmers like us are destroying the environment. It’s not true and we want to show that it’s not true.

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