The supply of logs for wood industries during the period 2004-2008 was 13.5-32 million cubic meters per year. Logs from plantation forest reached about 65%, which was exploited from industrial plantation forest, Perum...The supply of logs for wood industries during the period 2004-2008 was 13.5-32 million cubic meters per year. Logs from plantation forest reached about 65%, which was exploited from industrial plantation forest, Perum Perhutani, as a government enterprise, community forest and estate. The changing log supply from natural forest to plantation forest implies changing of wood species, cutting cycle, log diameter and wood properties. Research concerning the utilization of fast growing species, small log diameter, lesser used species and other llignocellulosic material have been intensively done by some research institutes and universities, and were related to wood properties, wood properties enhancement, wood chemistry, bio-composite, wood engineering, and also non-timber forest products.展开更多
Reducing Emissions from Deforestation and Forest Degradation(REDD+) and enhancing "removals of greenhouse gas emissions by forests" in developing countries through positive incentives is regarded as an essen...Reducing Emissions from Deforestation and Forest Degradation(REDD+) and enhancing "removals of greenhouse gas emissions by forests" in developing countries through positive incentives is regarded as an essential component of the post-2012 climate regime for stabilizing greenhouse gas emissions and an important way of engaging developing countries in global mitigation efforts. We aimed to evaluate the potential effectiveness of REDD+ by integrating it into a land use option framework. One of our goals was to develop scenarios for evaluating the impacts of land use changes on carbon and environmental processes. In addition, we aimed to quantify the potential economic benefits to society of compensated reductions and to identify hotspots for applying REDD+. Three land use change scenarios were examined:(I) business as usual(BAU),(II) economic development, and(III) REDD+. A case study in Indonesia was examined using these land use scenarios and policy interventions, evaluating their effects on carbon emissions, socioeconomics, and environmental features of a spatial system using land use models. Significant emissions and water erosion reductions were predicted to be achieved under the REDD+ scenario, due to reduced deforestation of <6% over the next decade; >0.14 Mt CO2 e reduction was predicted relative to the BAU scenario. Furthermore, the spatial land use model indicated that REDD+ payments of forest carbon credits in the compliance market would play a key role in compensating rural communities and plantation companies for their opportunity cost in ending deforestation. This study provides an example of integrating land use modeling with a scenario analysis framework to evaluate plausible future forecasts and to evaluate the potential impacts of REDD+.展开更多
Developments in urban area, which result situation of urban environment progressively becomeonly going forward economical but retreat ecologically. Though urban stability is very important ecologically,it is the same ...Developments in urban area, which result situation of urban environment progressively becomeonly going forward economical but retreat ecologically. Though urban stability is very important ecologically,it is the same important as its stability value economical. Annoyed stability of urban ecosystem showednatures reaction in the form of: the increasing of air temperature, degradation of ground water, floods,degradation of surface of land, sea water intrusion, coastal abrasion, contamination of water in the form ofdrinking water smell, containing heavy metal, contamination of air like the increasing of rate of CO, ozone(O3), carbon-dioxide (CO2), nitrogen oxide (NOx) and brimstone (S), dirt, barren atmosphere, monotonous,dirty and noisy. Some metropolis and developing cities in Indonesia are developing urban forests to anticipatethe above-mentioned problems.展开更多
文摘The supply of logs for wood industries during the period 2004-2008 was 13.5-32 million cubic meters per year. Logs from plantation forest reached about 65%, which was exploited from industrial plantation forest, Perum Perhutani, as a government enterprise, community forest and estate. The changing log supply from natural forest to plantation forest implies changing of wood species, cutting cycle, log diameter and wood properties. Research concerning the utilization of fast growing species, small log diameter, lesser used species and other llignocellulosic material have been intensively done by some research institutes and universities, and were related to wood properties, wood properties enhancement, wood chemistry, bio-composite, wood engineering, and also non-timber forest products.
基金supported by National Natural Science Foundation of China(Grant No.41371525)National Basic Research Program of China(Grant Nos.2012CB955800,2012CB955804)+1 种基金China Postdoctoral Science Foundation funded project(Grant Nos.2012M521390,2013T60696)Scientific Research Foundation for Returned Scholars(Grant Nos.2013(693),2013B065)
文摘Reducing Emissions from Deforestation and Forest Degradation(REDD+) and enhancing "removals of greenhouse gas emissions by forests" in developing countries through positive incentives is regarded as an essential component of the post-2012 climate regime for stabilizing greenhouse gas emissions and an important way of engaging developing countries in global mitigation efforts. We aimed to evaluate the potential effectiveness of REDD+ by integrating it into a land use option framework. One of our goals was to develop scenarios for evaluating the impacts of land use changes on carbon and environmental processes. In addition, we aimed to quantify the potential economic benefits to society of compensated reductions and to identify hotspots for applying REDD+. Three land use change scenarios were examined:(I) business as usual(BAU),(II) economic development, and(III) REDD+. A case study in Indonesia was examined using these land use scenarios and policy interventions, evaluating their effects on carbon emissions, socioeconomics, and environmental features of a spatial system using land use models. Significant emissions and water erosion reductions were predicted to be achieved under the REDD+ scenario, due to reduced deforestation of <6% over the next decade; >0.14 Mt CO2 e reduction was predicted relative to the BAU scenario. Furthermore, the spatial land use model indicated that REDD+ payments of forest carbon credits in the compliance market would play a key role in compensating rural communities and plantation companies for their opportunity cost in ending deforestation. This study provides an example of integrating land use modeling with a scenario analysis framework to evaluate plausible future forecasts and to evaluate the potential impacts of REDD+.
文摘Developments in urban area, which result situation of urban environment progressively becomeonly going forward economical but retreat ecologically. Though urban stability is very important ecologically,it is the same important as its stability value economical. Annoyed stability of urban ecosystem showednatures reaction in the form of: the increasing of air temperature, degradation of ground water, floods,degradation of surface of land, sea water intrusion, coastal abrasion, contamination of water in the form ofdrinking water smell, containing heavy metal, contamination of air like the increasing of rate of CO, ozone(O3), carbon-dioxide (CO2), nitrogen oxide (NOx) and brimstone (S), dirt, barren atmosphere, monotonous,dirty and noisy. Some metropolis and developing cities in Indonesia are developing urban forests to anticipatethe above-mentioned problems.
