For determining the effect of tree-age on the fuel properties of Eucalyptus hybrid, the variability in basic density, calorific value, proximate and ultimate parameters of 2-6 years old trees and mature trees (20- ye...For determining the effect of tree-age on the fuel properties of Eucalyptus hybrid, the variability in basic density, calorific value, proximate and ultimate parameters of 2-6 years old trees and mature trees (20- year-old), grown under short rotation forestry regime, were measured and analyzed. Results show that there was no significant variation in the basic density of wood for 2-6 year-old Eucalyptus hybrid, with average value of 0.55-0.58 g.cm-3; the calorific value of mature trees was higher than that of lower age trees, but the ash content was much higher in lower age trees compared to mature trees. No particular trend was observed for volatile matter content and the fixed carbon content with tree-age. In conclusion, the fuel properties of mature tree were marginally better than trees of lower age.展开更多
We have quantitatively analyzed the tree species diversity with respect to soil nutrient status in three sites of a sacred forest ecosystem of Niyamgiri hill range, Eastern Ghats, India. Extensive field surveys and sa...We have quantitatively analyzed the tree species diversity with respect to soil nutrient status in three sites of a sacred forest ecosystem of Niyamgiri hill range, Eastern Ghats, India. Extensive field surveys and sampling were conducted in 3 sites of the hill range: Site 1 Pterocarpus dominated forest (PTF) (19°40'02.2'' N and 83°21'23.1'' E), Site 2 Mangifera dominated forest (MAF) (19°40'02.8'' N and 83°21'40.8'' E) and Site 3 Mixed forest (MIF) (19°36'47.1" N and 83°21'02.7'' E). A total of 28 families, 42 genera, 46 tree species, and 286 individual trees were recorded on an area of0.6 ha. Tree density varied between 470 and 49o individuals ha and average basal area between 3.16 and l0.04 m2 ha-1. Shannon Index (H') ranged from 2.34 to 4.53, Simpson's Index ranged from 0.07 to o.09, and equitability Index ranged from 0.7 to 1.34. The number of individuals was highest in the girth at breast height (GBH) class of 50-7o cm. The soil nutrient status of the three forest types was related to tree species diversity. The soil pH value of the three sites reflected the slightly acidic nature of the area. Species diversity was positively correlated with organic carbon and phosphorus and negatively with nitrogen, EC and pH. The results of the current study may be helpful to further develop a conservation planfor tree species in tropical sacred forest ecosystems.展开更多
In Malaysia, airborne hyperspectral remote sensing is a relatively new technique used for research and commercial value in forest inventory and mapping. An advantage of airborne remote sensing, compared to satellite r...In Malaysia, airborne hyperspectral remote sensing is a relatively new technique used for research and commercial value in forest inventory and mapping. An advantage of airborne remote sensing, compared to satellite remote sensing, is its capability of offering a very high spatial resolution images. Thus, UPM-TropAIR AISA's airborne hyperspectral imagery that has been used in this study provides great quantity, better quality and also lower cost in identifying, quantifying and mapping of the Malaysian tropical timber forest resources. For the first stage in this study, the development of spectral library is deemed required in order for the Spectral Angle Mapper (SAM) classification be used to separate and map individual tree species in a tropical mixed mountain forest of Gunong Stong Forest Reserve. Pre-processing, enhancement and interpretation of image were conducted using ENVI Version 4.0 software. Results indicated that a total of eight commercial timber tree species was identified and mapped in a study plot of 5 ha using the TropAIR airborne hyperspectral imager with the aid of ground truthings.展开更多
To understand the impacts of reforestation on woody species composition,species diversity and community structure,seven plantation forests in dryhot valley of the Jinsha River in Southwest China were investigated,with...To understand the impacts of reforestation on woody species composition,species diversity and community structure,seven plantation forests in dryhot valley of the Jinsha River in Southwest China were investigated,with adjacent wastelands,natural shrub grassland and a natural forest as references.Species importance value,species richness,species heterogeneity and Sorenson similarity index between plantations and the natural forest were analyzed.Results indicated that compared to wastelands and natural shrub grassland,reforestation improved species diversity and community structure,and more forest woody species found suitable habitats in plantations.Species diversity in understory of plantations and Sorenson similarity index were significantly negatively correlated with stem density in mature plantations(26-31 years old).Higher species diversity and Sorenson similarity index existed in mature sparse plantations due to lower stem density and more tree species planted initially.In contrast,reference natural forest,with species heterogeneity of 2.28 for shrub layer,showed the highest species diversity.It would take a long time for species composition and diversity to recover through reforestation in a dry-hot valley.Therefore,it was essential to protect remnant natural forests strictly and reforest with suitable management such as lower stem density and increasing genetic diversity of trees planted.展开更多
Aims Positive biodiversity-ecosystem functioning relationships have been widely reported,predominately from grassland ecosystems.However,this does not necessarily have to apply accordingly in more complex situations s...Aims Positive biodiversity-ecosystem functioning relationships have been widely reported,predominately from grassland ecosystems.However,this does not necessarily have to apply accordingly in more complex situations such as in forests across different vertical strata.For instance,overstorey tree species richness has been shown to be associated with a lower understorey productivity.Whether or not tree species richness effects add to understorey productivity by increasing(i.e.due to habitat heterogeneity)or reducing resource availability(i.e.through increasing competition)and whether understorey productivity is indeed being governed more strongly by tree species identity are likely to change over time.Moreover,studies also suggested that richness-productivity relationships change with the environmental context.Using an experimental forest plantation with manipulated tree species richness,this study examined these temporal and environmental dynamics across strata.Methods In the context of the Biodiversity-Ecosystem Functioning project in subtropical China(BEF-China),we made use of understorey biomass samples repeatedly collected over a time period of 3 years along a tree species richness gradient.The effects of tree species richness,tree species identities and time were studied across different environmental treatments for their impact on understorey biomass.Important Findings While we found significant and consistent tree layer identity effects on understorey biomass,no such effect was encountered for tree species richness.Our results also indicate that among structural layers in forests,there might not be a single,generalizable overstorey species richness-understorey productivity relationship,and that the extent as to which overstorey-related environmental factors such as light transmittance contribute to understorey productivity change with time.Overall,we demonstrate that temporal dynamics should be considered when studying relationship among structural layers in forests.展开更多
文摘For determining the effect of tree-age on the fuel properties of Eucalyptus hybrid, the variability in basic density, calorific value, proximate and ultimate parameters of 2-6 years old trees and mature trees (20- year-old), grown under short rotation forestry regime, were measured and analyzed. Results show that there was no significant variation in the basic density of wood for 2-6 year-old Eucalyptus hybrid, with average value of 0.55-0.58 g.cm-3; the calorific value of mature trees was higher than that of lower age trees, but the ash content was much higher in lower age trees compared to mature trees. No particular trend was observed for volatile matter content and the fixed carbon content with tree-age. In conclusion, the fuel properties of mature tree were marginally better than trees of lower age.
文摘We have quantitatively analyzed the tree species diversity with respect to soil nutrient status in three sites of a sacred forest ecosystem of Niyamgiri hill range, Eastern Ghats, India. Extensive field surveys and sampling were conducted in 3 sites of the hill range: Site 1 Pterocarpus dominated forest (PTF) (19°40'02.2'' N and 83°21'23.1'' E), Site 2 Mangifera dominated forest (MAF) (19°40'02.8'' N and 83°21'40.8'' E) and Site 3 Mixed forest (MIF) (19°36'47.1" N and 83°21'02.7'' E). A total of 28 families, 42 genera, 46 tree species, and 286 individual trees were recorded on an area of0.6 ha. Tree density varied between 470 and 49o individuals ha and average basal area between 3.16 and l0.04 m2 ha-1. Shannon Index (H') ranged from 2.34 to 4.53, Simpson's Index ranged from 0.07 to o.09, and equitability Index ranged from 0.7 to 1.34. The number of individuals was highest in the girth at breast height (GBH) class of 50-7o cm. The soil nutrient status of the three forest types was related to tree species diversity. The soil pH value of the three sites reflected the slightly acidic nature of the area. Species diversity was positively correlated with organic carbon and phosphorus and negatively with nitrogen, EC and pH. The results of the current study may be helpful to further develop a conservation planfor tree species in tropical sacred forest ecosystems.
文摘In Malaysia, airborne hyperspectral remote sensing is a relatively new technique used for research and commercial value in forest inventory and mapping. An advantage of airborne remote sensing, compared to satellite remote sensing, is its capability of offering a very high spatial resolution images. Thus, UPM-TropAIR AISA's airborne hyperspectral imagery that has been used in this study provides great quantity, better quality and also lower cost in identifying, quantifying and mapping of the Malaysian tropical timber forest resources. For the first stage in this study, the development of spectral library is deemed required in order for the Spectral Angle Mapper (SAM) classification be used to separate and map individual tree species in a tropical mixed mountain forest of Gunong Stong Forest Reserve. Pre-processing, enhancement and interpretation of image were conducted using ENVI Version 4.0 software. Results indicated that a total of eight commercial timber tree species was identified and mapped in a study plot of 5 ha using the TropAIR airborne hyperspectral imager with the aid of ground truthings.
基金supported financially by the Program of Introducing Talents of Discipline to Universities (B08037)
文摘To understand the impacts of reforestation on woody species composition,species diversity and community structure,seven plantation forests in dryhot valley of the Jinsha River in Southwest China were investigated,with adjacent wastelands,natural shrub grassland and a natural forest as references.Species importance value,species richness,species heterogeneity and Sorenson similarity index between plantations and the natural forest were analyzed.Results indicated that compared to wastelands and natural shrub grassland,reforestation improved species diversity and community structure,and more forest woody species found suitable habitats in plantations.Species diversity in understory of plantations and Sorenson similarity index were significantly negatively correlated with stem density in mature plantations(26-31 years old).Higher species diversity and Sorenson similarity index existed in mature sparse plantations due to lower stem density and more tree species planted initially.In contrast,reference natural forest,with species heterogeneity of 2.28 for shrub layer,showed the highest species diversity.It would take a long time for species composition and diversity to recover through reforestation in a dry-hot valley.Therefore,it was essential to protect remnant natural forests strictly and reforest with suitable management such as lower stem density and increasing genetic diversity of trees planted.
基金This work was supported by the German Research Foundation(DFG FOR 891/3)with a grant to A.E.(ER 573/1-3).
文摘Aims Positive biodiversity-ecosystem functioning relationships have been widely reported,predominately from grassland ecosystems.However,this does not necessarily have to apply accordingly in more complex situations such as in forests across different vertical strata.For instance,overstorey tree species richness has been shown to be associated with a lower understorey productivity.Whether or not tree species richness effects add to understorey productivity by increasing(i.e.due to habitat heterogeneity)or reducing resource availability(i.e.through increasing competition)and whether understorey productivity is indeed being governed more strongly by tree species identity are likely to change over time.Moreover,studies also suggested that richness-productivity relationships change with the environmental context.Using an experimental forest plantation with manipulated tree species richness,this study examined these temporal and environmental dynamics across strata.Methods In the context of the Biodiversity-Ecosystem Functioning project in subtropical China(BEF-China),we made use of understorey biomass samples repeatedly collected over a time period of 3 years along a tree species richness gradient.The effects of tree species richness,tree species identities and time were studied across different environmental treatments for their impact on understorey biomass.Important Findings While we found significant and consistent tree layer identity effects on understorey biomass,no such effect was encountered for tree species richness.Our results also indicate that among structural layers in forests,there might not be a single,generalizable overstorey species richness-understorey productivity relationship,and that the extent as to which overstorey-related environmental factors such as light transmittance contribute to understorey productivity change with time.Overall,we demonstrate that temporal dynamics should be considered when studying relationship among structural layers in forests.
