In 2009, Indonesia was included in a group of the ten biggest countries emitting greenhouse gases, and forest sector contributes 85%. This forest exploitation should be stopped, and by this research the industrial woo...In 2009, Indonesia was included in a group of the ten biggest countries emitting greenhouse gases, and forest sector contributes 85%. This forest exploitation should be stopped, and by this research the industrial wood species with special planting pattern was used as cocoa shade trees. The experiment was conducted in East Java, Indonesia, altitude 45 m above sea level using four planting patterns, i.e. (A) cocoa-Tectona grandis Linn. 3 m x 6 m, (B) cocoa-T, grandis 6 m x 4.2 m ~ 4.2 m (triangle), (C) cocoa-Paraserianthesfalcataria L. (I. Nielsen) 3 m ~ 6 m, and (D) cocoa-Leucaena sp. 3 m ~ 6 m (control). Cocoa was planted in 3 m ~ 3 m distance; between rows of teak and Paraserianthes was planted. Cassia surithensis of 3 m distance in the row, as reserve shade trees. At 6 year old, Paraserianthes was harvested, and at 7 year old, teak trees were thinned out 50% population for A and 66.7% for B treatments. The result showed that cocoa agroforestry by using timber trees in regular planting pattern and accurate spacing did not decrease cocoa yield but improved land productivity. Paraserianthes harvesting produced 0.71 m3 timber and the price was US$38.0-US $40.0 per tree, while teak thinning out produced 0.07 m3 wood per tree and it cost was US$5 per tree. From 108 Paraserianthes trees harvested, 81 cocoa trees were affected, 11.9% were seriously damage, 6.85% were medium damage, and 5.36% were light damage. On the other hand, teak spacing did not cause serious damage on cocoa trees. Biomass of harvested Paraserianthes and teak supplied back to soil 543 g and 250 g per tree respectively for equalities to total urea, SP 36, KC1, Kieserite and Dolomite. Paraserianthes harvest and teak thinning out made microclimate to be warmer, humidity to be lower, so pod rot incidence become lower and pod yield was improved, namely 71% and 27.25% for Paraserianthes plot and teak plot, respectively. Harvesting of Paraserianthes produced benefit/cost plot of 43.63, and teak thinning out of 3.60. The revenue obtained from timber sales easily offset the costs of damage of the cocoa crop. It is concluded that by using accurate planting pattern, cocoa area could produce industrial timber without sacrifying cocoa production and exactly improve land productivity.展开更多
Understanding and quantifying the resilience of forests to disturbances are increasingly important for forest management.Historical fire suppression,logging,and other land uses have increased densities of shade tolera...Understanding and quantifying the resilience of forests to disturbances are increasingly important for forest management.Historical fire suppression,logging,and other land uses have increased densities of shade tolerant trees and fuel buildup in the western United States,which has reduced the resilience of these forests to natural disturbances.One way to mitigate this problem is to use fuel treatments such as stand thinning and prescribed burning.In this study,we investigated changes in forest structure in the Lassen and Plumas National Forests of northern California following a large wildfire.We used longterm field data and aerial photos to examine what management techniques can be effectively used to restore a healthy forest structure and increase the resilience of forests to drought and wildfires.Forest resilience was quantitatively modeled using the forest vegetation simulator and analyzed under varied thinning practices and fuel management scenarios.Results showed that trees below 1,219 m in elevation had the least mortality and gained the most biomass.Trees taller than 45.7 m lost the most biomass.We found that thinning basal area to 16.1 m^(2)·hm^(-2)resulted in the highest resilience score for California mixed conifer forest stands and thinning to 9.2 m^(2)·hm^(-2)resulted in the highest resilience score for Jeffrey pine stands.Structural diversity had a negative relationship with resilience score.Understanding forest structure,forest resilience,and the factors that make trees vulnerable to mortality will allow managers to better plan fuel treatments for these forests.展开更多
Coffea cultivation with shade tree is used for improving soil health,increasing coffea production,sustaining agro ecology.The study was attended in two kebele,on 36 farmers’fields,at Gololcha district of East Arsi zo...Coffea cultivation with shade tree is used for improving soil health,increasing coffea production,sustaining agro ecology.The study was attended in two kebele,on 36 farmers’fields,at Gololcha district of East Arsi zone.The study was intended to assess the influence of coffea shade trees on farm lands versus mountainous area.Household interviews were used to get imperative separately,i.e.from old farmers,middle age farmers and young farmers.Significant difference value was observed between farm land and mountainous area coverage.Based on this respondents’idea,before 25-30 years;the‘condition of tree coverage at mountainous’area in Arsi Gololcha district was‘medium condition’but not normal that means as deforestation of mountainous area have been starting before 30 years’time;while the condition of tree coverage at farmland area also has been starting before 30 years’time.The third respondents’idea was interpreted with the real situation of the district,that it gave us a constructive inspiration on the role of coffea shade tree to enable the farm land to be taken as regular natural forest.The existing coffea shade trees are Cordia africana followed by Erythrina abyssinica and Acacia senegal.Farmers accounted 95%of coffea shade users and 4.6%without shade users.The respondents said that even if the rainfall intensity is increasing at farmland rather than mountainous area occasionally due to shade tree effect.On the contrary side,mountainous area exposed to deforestation since the farmers have been shifting to hilly side for their livelihood dependency.展开更多
文摘In 2009, Indonesia was included in a group of the ten biggest countries emitting greenhouse gases, and forest sector contributes 85%. This forest exploitation should be stopped, and by this research the industrial wood species with special planting pattern was used as cocoa shade trees. The experiment was conducted in East Java, Indonesia, altitude 45 m above sea level using four planting patterns, i.e. (A) cocoa-Tectona grandis Linn. 3 m x 6 m, (B) cocoa-T, grandis 6 m x 4.2 m ~ 4.2 m (triangle), (C) cocoa-Paraserianthesfalcataria L. (I. Nielsen) 3 m ~ 6 m, and (D) cocoa-Leucaena sp. 3 m ~ 6 m (control). Cocoa was planted in 3 m ~ 3 m distance; between rows of teak and Paraserianthes was planted. Cassia surithensis of 3 m distance in the row, as reserve shade trees. At 6 year old, Paraserianthes was harvested, and at 7 year old, teak trees were thinned out 50% population for A and 66.7% for B treatments. The result showed that cocoa agroforestry by using timber trees in regular planting pattern and accurate spacing did not decrease cocoa yield but improved land productivity. Paraserianthes harvesting produced 0.71 m3 timber and the price was US$38.0-US $40.0 per tree, while teak thinning out produced 0.07 m3 wood per tree and it cost was US$5 per tree. From 108 Paraserianthes trees harvested, 81 cocoa trees were affected, 11.9% were seriously damage, 6.85% were medium damage, and 5.36% were light damage. On the other hand, teak spacing did not cause serious damage on cocoa trees. Biomass of harvested Paraserianthes and teak supplied back to soil 543 g and 250 g per tree respectively for equalities to total urea, SP 36, KC1, Kieserite and Dolomite. Paraserianthes harvest and teak thinning out made microclimate to be warmer, humidity to be lower, so pod rot incidence become lower and pod yield was improved, namely 71% and 27.25% for Paraserianthes plot and teak plot, respectively. Harvesting of Paraserianthes produced benefit/cost plot of 43.63, and teak thinning out of 3.60. The revenue obtained from timber sales easily offset the costs of damage of the cocoa crop. It is concluded that by using accurate planting pattern, cocoa area could produce industrial timber without sacrifying cocoa production and exactly improve land productivity.
基金supported by joint agreement 19-JV-11272139-025 between Pacific Southwest Research StationUSDA Forest Service Pacific Southwest Research Station and Texas A&M University-Kingsville
文摘Understanding and quantifying the resilience of forests to disturbances are increasingly important for forest management.Historical fire suppression,logging,and other land uses have increased densities of shade tolerant trees and fuel buildup in the western United States,which has reduced the resilience of these forests to natural disturbances.One way to mitigate this problem is to use fuel treatments such as stand thinning and prescribed burning.In this study,we investigated changes in forest structure in the Lassen and Plumas National Forests of northern California following a large wildfire.We used longterm field data and aerial photos to examine what management techniques can be effectively used to restore a healthy forest structure and increase the resilience of forests to drought and wildfires.Forest resilience was quantitatively modeled using the forest vegetation simulator and analyzed under varied thinning practices and fuel management scenarios.Results showed that trees below 1,219 m in elevation had the least mortality and gained the most biomass.Trees taller than 45.7 m lost the most biomass.We found that thinning basal area to 16.1 m^(2)·hm^(-2)resulted in the highest resilience score for California mixed conifer forest stands and thinning to 9.2 m^(2)·hm^(-2)resulted in the highest resilience score for Jeffrey pine stands.Structural diversity had a negative relationship with resilience score.Understanding forest structure,forest resilience,and the factors that make trees vulnerable to mortality will allow managers to better plan fuel treatments for these forests.
文摘Coffea cultivation with shade tree is used for improving soil health,increasing coffea production,sustaining agro ecology.The study was attended in two kebele,on 36 farmers’fields,at Gololcha district of East Arsi zone.The study was intended to assess the influence of coffea shade trees on farm lands versus mountainous area.Household interviews were used to get imperative separately,i.e.from old farmers,middle age farmers and young farmers.Significant difference value was observed between farm land and mountainous area coverage.Based on this respondents’idea,before 25-30 years;the‘condition of tree coverage at mountainous’area in Arsi Gololcha district was‘medium condition’but not normal that means as deforestation of mountainous area have been starting before 30 years’time;while the condition of tree coverage at farmland area also has been starting before 30 years’time.The third respondents’idea was interpreted with the real situation of the district,that it gave us a constructive inspiration on the role of coffea shade tree to enable the farm land to be taken as regular natural forest.The existing coffea shade trees are Cordia africana followed by Erythrina abyssinica and Acacia senegal.Farmers accounted 95%of coffea shade users and 4.6%without shade users.The respondents said that even if the rainfall intensity is increasing at farmland rather than mountainous area occasionally due to shade tree effect.On the contrary side,mountainous area exposed to deforestation since the farmers have been shifting to hilly side for their livelihood dependency.
