期刊文献+
共找到57篇文章
< 1 2 3 >
每页显示 20 50 100
Quantification of Above-Ground Biomass and Carbon Sequestration Potential of Roadside Trees in the Plateau Department of Benin Republic
1
作者 Dende Ibrahim Adekanmbi Igor Armand Yevide +4 位作者 Kafui Inès Edna Deleke Koko Adandé Belarmain Fandohan Basile Sègbégnon Michoagan Moussahoudou Issa Agossou Bruno Djossa 《Journal of Geoscience and Environment Protection》 2023年第9期20-27,共8页
Roadside trees are effective natural solutions for mitigating climate change. Despite the usefulness of trees to carbon sequestration, there is a dearth of information on the estimation of biomass and carbon stock for... Roadside trees are effective natural solutions for mitigating climate change. Despite the usefulness of trees to carbon sequestration, there is a dearth of information on the estimation of biomass and carbon stock for roadside trees in the study area. This study aimed to estimate the carbon stock and carbon dioxide equivalent of roadside trees. A complete enumeration of trees was carried out in Kétou, Pobè and Sakété within the communes of the Plateau Department, Bénin Republic. Total height and diameter at breast height were measured from trees along the roads while individual wood density value was obtained from wood density database. The allometric method of biomass estimation was adopted for the research. The results showed that the total estimations for above-ground biomass, carbon stock and carbon equivalent from all the enumerated roadside trees were 154.53 mt, 72.63 mt and 266.55 mt, respectively. The results imply that the roadside trees contain a substantial amount of carbon stock that can contribute to climate change mitigation through carbon sequestration. 展开更多
关键词 above-ground biomass Allometric Model Carbon Sequestration Roadside Trees Bénin Republic
下载PDF
Biomass and dominance of conservative species drive above-ground biomass productivity in a mediterranean-type forest of Chile 被引量:4
2
作者 Ariel Isaías Ayma-Romay Horacio E.Bown 《Forest Ecosystems》 SCIE CSCD 2019年第4期339-351,共13页
Background: Forest productivity has a pivotal role in human well-being. Vegetation quantity, niche complementarity, mass-ratio, and soil resources are alternative/complementary ecological mechanisms driving productivi... Background: Forest productivity has a pivotal role in human well-being. Vegetation quantity, niche complementarity, mass-ratio, and soil resources are alternative/complementary ecological mechanisms driving productivity. One challenge in current forest management depends on identifying and manipulating these mechanisms to enhance productivity. This study assessed the extent to which these mechanisms control aboveground biomass productivity(AGBP) of a Chilean mediterranean-type matorral. AGBP measured as tree aboveground biomass changes over a 7-years period, was estimated for twelve 25 m × 25 m plots across a wide range of matorral compositions and structures. Variables related to canopy structure, species and functional diversity, species and functional dominance, soil texture, soil water and soil nitrogen content were measured as surrogates of the four mechanisms proposed. Linear regression models were used to test the hypotheses. A multimodel inference based on the Akaike’s information criterion was used to select the best models explaining AGBP and for identifying the relative importance of each mechanism.Results: Vegetation quantity(tree density) and mass-ratio(relative biomass of Cryptocarya alba, a conservative species) were the strongest drivers increasing AGBP, while niche complementarity(richness species) and soil resources(sand, %) had a smaller effect either decreasing or increasing AGBP, respectively. This study provides the first assessment of alternative mechanisms driving AGBP in mediterranean forests of Chile. There is strong evidence suggesting that the vegetation quantity and mass-ratio mechanisms are key drivers of AGBP, such as in other tropical and temperate forests. However, in contrast with other studies from mediterranean-type forests, our results show a negative effect of species diversity and a small effect of soil resources on AGBP.Conclusion: AGBP in the Chilean matorral depends mainly on the vegetation quantity and mass-ratio mechanisms.The findings of this study have implications for matorral restoration and management for the production of timber and non-timber products and carbon sequestration. 展开更多
关键词 above-ground biomass productivity Diversity Niche complementarity MASS-RATIO Mediterranean Soil resources
下载PDF
Estimating canopy closure density and above-ground tree biomass using partial least square methods in Chinese boreal forests 被引量:5
3
作者 LEI Cheng-liang JU Cun-yong +3 位作者 CAI Ti-jiu J1NG Xia WEI Xiao-hua DI Xue-ying 《Journal of Forestry Research》 CAS CSCD 2012年第2期191-196,共6页
Boreal forests play an important role in global environment systems. Understanding boreal forest ecosystem structure and function requires accurate monitoring and estimating of forest canopy and biomass. We used parti... Boreal forests play an important role in global environment systems. Understanding boreal forest ecosystem structure and function requires accurate monitoring and estimating of forest canopy and biomass. We used partial least square regression (PLSR) models to relate forest parameters, i.e. canopy closure density and above ground tree biomass, to Landsat ETM+ data. The established models were optimized according to the variable importance for projection (VIP) criterion and the bootstrap method, and their performance was compared using several statistical indices. All variables selected by the VIP criterion passed the bootstrap test (p〈0.05). The simplified models without insignificant variables (VIP 〈1) performed as well as the full model but with less computation time. The relative root mean square error (RMSE%) was 29% for canopy closure density, and 58% for above ground tree biomass. We conclude that PLSR can be an effective method for estimating canopy closure density and above ground biomass. 展开更多
关键词 above-ground tree biomass bootstrap method canopy clo- sure density partial least square regression (PLSR) VIP criterion
下载PDF
Estimating above-ground biomass by fusion of LiDAR and multispectral data in subtropical woody plant communities in topographically complex terrain in North-eastern Australia 被引量:2
4
作者 Sisira Ediriweera Sumith Pathirana +1 位作者 Tim Danaher Doland Nichols 《Journal of Forestry Research》 SCIE CAS CSCD 2014年第4期761-771,共11页
We investigated a strategy to improve predicting capacity of plot-scale above-ground biomass (AGB) by fusion of LiDAR and Land- sat5 TM derived biophysical variables for subtropical rainforest and eucalypts dominate... We investigated a strategy to improve predicting capacity of plot-scale above-ground biomass (AGB) by fusion of LiDAR and Land- sat5 TM derived biophysical variables for subtropical rainforest and eucalypts dominated forest in topographically complex landscapes in North-eastern Australia. Investigation was carried out in two study areas separately and in combination. From each plot of both study areas, LiDAR derived structural parameters of vegetation and reflectance of all Landsat bands, vegetation indices were employed. The regression analysis was carded out separately for LiDAR and Landsat derived variables indi- vidually and in combination. Strong relationships were found with LiDAR alone for eucalypts dominated forest and combined sites compared to the accuracy of AGB estimates by Landsat data. Fusing LiDAR with Landsat5 TM derived variables increased overall performance for the eucalypt forest and combined sites data by describing extra variation (3% for eucalypt forest and 2% combined sites) of field estimated plot-scale above-ground biomass. In contrast, separate LiDAR and imagery data, andfusion of LiDAR and Landsat data performed poorly across structurally complex closed canopy subtropical minforest. These findings reinforced that obtaining accurate estimates of above ground biomass using remotely sensed data is a function of the complexity of horizontal and vertical structural diversity of vegetation. 展开更多
关键词 FUSION above-ground biomass LiDAR multispectral data subtropical plant communities
下载PDF
Estimation of the Above-ground Biomass of Tamarix Species along a Transect at the Tarim River's Middle Reaches 被引量:3
5
作者 努尔比亚.阿布力米提 努尔巴依.阿布都沙力克 +1 位作者 于苏云江.吗米提敏 Niels Thevs 《Agricultural Science & Technology》 CAS 2011年第2期301-304,共4页
[Objective] The purpose was to research the distribution characteristics of Tamarix species above-ground biomass of Tarim River's middle reaches and to find out best-fit linear-regression model of Tamarix species in ... [Objective] The purpose was to research the distribution characteristics of Tamarix species above-ground biomass of Tarim River's middle reaches and to find out best-fit linear-regression model of Tamarix species in this area.[Method] By dint of the most common sampling method PCQ,five samples in the middle reaches of Tarim River were collected.The best-fit linear-regression model of Tamarix species of this area was set up,based on the fieldwork and the model of Evangelista and obtained the distribution rules of Tamarix species of Tarim River's middle reaches.[Result] The result indicated that this model fitted for the estimation of aboveground biomass of the study area.According to the distribution rules of aboveground biomass,it was clear that underground water was the major element which decided the distribution of aboveground biomass.[Conclusion] The study provided theoretical basis for the calculation of biomass of Tamarix. 展开更多
关键词 above-ground biomass Tamarix species Linear-regression analysis
下载PDF
Plant cover as an estimator of above-ground biomass in semi-arid woody vegetation in Northeast Patagonia,Argentina 被引量:1
6
作者 Laura B RODRIGUEZ Silvia S TORRES ROBLES +3 位作者 Marcelo F ARTURI Juan M ZEBERIO Andrés C H GRAND Néstor I GASPARRI 《Journal of Arid Land》 SCIE CSCD 2021年第9期918-933,共16页
The quantification of carbon storage in vegetation biomass is a crucial factor in the estimation and mitigation of CO2 emissions.Globally,arid and semi-arid regions are considered an important carbon sink.However,they... The quantification of carbon storage in vegetation biomass is a crucial factor in the estimation and mitigation of CO2 emissions.Globally,arid and semi-arid regions are considered an important carbon sink.However,they have received limited attention and,therefore,it should be a priority to develop tools to quantify biomass at the local and regional scales.Individual plant variables,such as stem diameter and crown area,were reported to be good predictors of individual plant weight.Stand-level variables,such as plant cover and mean height,are also easy-to-measure estimators of above-ground biomass(AGB)in dry regions.In this study,we estimated the AGB in semi-arid woody vegetation in Northeast Patagonia,Argentina.We evaluated whether the AGB at the stand level can be estimated based on plant cover and to what extent the estimation accuracy can be improved by the inclusion of other field-measured structure variables.We also evaluated whether remote sensing technologies can be used to reliably estimate and map the regional mean biomass.For this purpose,we analyzed the relationships between field-measured woody vegetation structure variables and AGB as well as LANDSAT TM-derived variables.We obtained a model-based ratio estimate of regional mean AGB and its standard error.Total plant cover allowed us to obtain a reliable estimation of local AGB,and no better fit was attained by the inclusion of other structure variables.The stand-level plant cover ranged between 18.7%and 95.2%and AGB between about 2.0 and 70.8 Mg/hm^(2).AGB based on total plant cover was well estimated from LANDSAT TM bands 2 and 3,which facilitated a model-based ratio estimate of the regional mean AGB(approximately 12.0 Mg/hm^(2))and its sampling error(about 30.0%).The mean AGB of woody vegetation can greatly contribute to carbon storage in semi-arid lands.Thus,plant cover estimation by remote sensing images could be used to obtain regional estimates and map biomass,as well as to assess and monitor the impact of land-use change on the carbon balance,for arid and semi-arid regions. 展开更多
关键词 above-ground biomass SHRUBLANDS ratio estimation carbon storage remote sensing PATAGONIA
下载PDF
利用VGC-AGB模型和高光谱遥感的马铃薯地上生物量估算
7
作者 冯海宽 岳继博 +2 位作者 樊意广 杨贵军 赵春江 《光谱学与光谱分析》 SCIE EI CAS CSCD 北大核心 2023年第9期2876-2884,共9页
马铃薯是继水稻、小麦、玉米之后的一种重要的粮食作物,其优化种植和生产对于保障粮食安全具有重要的意义。作物的地面生物量(AGB)被广泛认为与作物的生长状态密切相关,常常被直接用来参与作物产量预测和健康状态参数评估。现有的研究表... 马铃薯是继水稻、小麦、玉米之后的一种重要的粮食作物,其优化种植和生产对于保障粮食安全具有重要的意义。作物的地面生物量(AGB)被广泛认为与作物的生长状态密切相关,常常被直接用来参与作物产量预测和健康状态参数评估。现有的研究表明,遥感植被指数在中高作物覆盖度时会丧失对作物参数的敏感性,即“饱和现象”,这制约了作物生长中后期AGB的准确监测。采用了一个新型垂直生长作物AGB估算模型(VGC-AGB)结合高光谱遥感开展马铃薯多生长阶段的AGB估算研究。针对多生长时期遥感光谱指数开展作物生物量监测中存在的“饱和问题”,VGC-AGB定义了叶片干物质含量(C_(m))和垂直器官干物质含量(C_(sm))2个参数,分别描述马铃薯叶片和茎的平均干物质含量,并通过叶面积指数(LAI)×C_(m)计算叶片的地上生物量(AGB l),通过种植密度(C_(d))、马铃薯株高(C_(h))和C_(sm)的乘积,即C_(d)×C_(h)×C_(sm)计算垂直器官的地上生物量(AGB v)。基于国家精准农业研究示范基地2019年马铃薯田间实验,分别获取了马铃薯4个关键生长时期的地面ASD高光谱数据、实测株高、AGB和LAI数据等,并利用高光谱反射率数据构建了高光谱特征参数,分别对比了(1)高光谱特征参数+株高,(2)地面测量参数+VGC-AGB模型和(3)高光谱特征参数+VGC-AGB模型的3种马铃薯AGB估算模型的性能。结果表明,与传统的高光谱遥感植被指数+株高的AGB估算方法相比,新型VGC-AGB模型结合高光谱遥感数据可以提供更高性能的马铃薯AGB l、AGB v和总AGB估算结果,该方法可为马铃薯AGB的快速无损监测提供技术支撑。 展开更多
关键词 VGC-agb模型 高光谱遥感 马铃薯 地面生物量
下载PDF
Model-based estimation of above-ground biomass in the miombo ecoregion of Zambia 被引量:1
8
作者 James Halperin Valerie LeMay +2 位作者 Emmanuel Chidumayo Louis Verchot Peter Marshall 《Forest Ecosystems》 SCIE CSCD 2016年第4期258-274,共17页
Background:Information on above-ground biomass(AGB) is important for managing forest resource use at local levels,land management planning at regional levels,and carbon emissions reporting at national and internati... Background:Information on above-ground biomass(AGB) is important for managing forest resource use at local levels,land management planning at regional levels,and carbon emissions reporting at national and international levels.In many tropical developing countries,this information may be unreliable or at a scale too coarse for use at local levels.There is a vital need to provide estimates of AGB with quantifiable uncertainty that can facilitate land use management and policy development improvements.Model-based methods provide an efficient framework to estimate AGB.Methods:Using National Forest Inventory(NFI) data for a^1,000,000 ha study area in the miombo ecoregion,Zambia,we estimated AGB using predicted canopy cover,environmental data,disturbance data,and Landsat 8 OLI satellite imagery.We assessed different combinations of these datasets using three models,a semiparametric generalized additive model(GAM) and two nonlinear models(sigmoidal and exponential),employing a genetic algorithm for variable selection that minimized root mean square prediction error(RMSPE),calculated through cross-validation.We compared model fit statistics to a null model as a baseline estimation method.Using bootstrap resampling methods,we calculated 95% confidence intervals for each model and compared results to a simple estimate of mean AGB from the NFI ground plot data.Results:Canopy cover,soil moisture,and vegetation indices were consistently selected as predictor variables.The sigmoidal model and the GAM performed similarly;for both models the RMSPE was -36.8 tonnes per hectare(i.e.,57% of the mean).However,the sigmoidal model was approximately 30% more efficient than the GAM,assessed using bootstrapped variance estimates relative to a null model.After selecting the sigmoidal model,we estimated total AGB for the study area at 64,526,209 tonnes(+/- 477,730),with a confidence interval 20 times more precise than a simple designbased estimate.Conclusions:Our findings demonstrate that NFI data may be combined with freely available satellite imagery and soils data to estimate total AGB with quantifiable uncertainty,while also providing spatially explicit AGB maps useful for management,planning,and reporting purposes. 展开更多
关键词 National Forest Inventory above-ground biomass Miombo REDD+ Generalized additive model Nonlinear model Landsat 8 OLI
下载PDF
Assessment of tree diversity and above-ground biomass in coffee agroforest dominated tropical landscape of India's Central Western Ghats
9
作者 Guddappa M.Devagiri Anil Kumar Khaple +3 位作者 Hosuru B.Anithraj Cheppudira G.Kushalappa Amaresh Kumar Krishnappa Shashi Bhushan Mishra 《Journal of Forestry Research》 SCIE CAS CSCD 2020年第3期1005-1015,共11页
The purpose of this study was to quantify the changes in tree diversity and above-ground biomass associated with six land-use types in Kodagu district of India's Western Ghats. We collected data on species richnes... The purpose of this study was to quantify the changes in tree diversity and above-ground biomass associated with six land-use types in Kodagu district of India's Western Ghats. We collected data on species richness,composition and above-ground biomass(AGB) of trees,shrubs and herbs from 96 sample plots of 0.1 ha. Totals of83 species from 26 families were recorded across the landuses. Tree species richness, diversity and composition were significantly higher in evergreen forest(EGF) than in other land-uses. Similarly, stem density and basal area were greater in EGF compared to other land-uses. Detrended correspondence analysis(DCA) yielded three distinct groups along the land-use intensities and rainfall gradient on the first and second axes, respectively. The first DCA axis accounted for 45% and second axis for 35% of the total variation in species composition. Together the first two axes accounted for over 2/3 of the variation in species composition across land-use types. Across the land-uses,AGB ranged from 58.6 Mg ha-1 in rubber plantation to327.3 Mg ha-1 in evergreen forest. Our results showed that species diversity and AGB were negatively impacted bythe land-use changes. We found that coffee agroforests resembled natural forest and mixed species plantation in terms of tree diversity and biomass production, suggesting that traditional coffee farms can help to protect tree species, sustain smallholder production and offer opportunities for conservation of biodiversity and climate change mitigation. 展开更多
关键词 WESTERN Ghats COFFEE agroforest Land-use changes Diversity above-ground biomass Carbon
下载PDF
Allometric prediction of above-ground biomass of eleven woody tree species in the Sudanian savanna-woodland of West Africa
10
作者 Louis Sawadogo Patrice Savadogo +5 位作者 Daniel Tiveau Sidzabda Djibril Dayamba Didier Zida Yves Nouvellet Per Christer Oden Sita Guinko 《Journal of Forestry Research》 SCIE CAS CSCD 2010年第4期475-481,524,共8页
Allometric models are necessary for estimating biomass in terrestrial ecosystems. Generalized allometric relationship exists for many tropical trees, but species- and region-specific models are often lacking. We devel... Allometric models are necessary for estimating biomass in terrestrial ecosystems. Generalized allometric relationship exists for many tropical trees, but species- and region-specific models are often lacking. We developed species-specific allometric models to predict aboveground biomass for 11 native tree species of the Sudanian savanna- woodlands. Diameters at the base and at breast height, with species means ranging respectively from 11 to 28 cm and 9 to 19 cm, and the height of the trees were used as predictor variables. Sampled trees spanned a wide range of sizes including the largest sizes these species can reach. As a response variable, the biomass of the trees was obtained through destructive sampling of 4 754 trees during wood harvesting. We used a stepwise multiple regression analysis with backward elimination procedure to develop models separately predicting, total biomass of the trees, stem biomass, and biomass of branches and twigs. All species- specific regression models relating biomass with measured tree dimen- sions were highly significant (p 〈 0.001). The biomass of branches and twigs was less predictable compared to stem biomass and total biomass, although their models required fewer predictors and predictor interac- tions. The best-fit equations for total above-ground biomass and stem biomass bad R2 〉 0.70, except for the Acacia species; for branches including twig biomass, R2-values varied from 0.749 for Anogeissus leiocarpa to 0.183 for Acacia macrostachya. The use of these equations in estimating available biomass will avoid destructive sampling, and aid in planning for sustainable use of these species. 展开更多
关键词 ALLOMETRY above-ground biomass indigenous woody species linear regression site specific equation
下载PDF
Land use and above-ground biomass changes in a mountain ecosystem,northern Thailand
11
作者 Sutheera Hermhuk Aingorn Chaiyes +2 位作者 Sathid Thinkampheang Noppakun Danrad Dokrak Marod 《Journal of Forestry Research》 SCIE CAS CSCD 2020年第5期1733-1742,共10页
The conversion of forests into agricultural lands is a major cause of deforestation,particularly in the mountain ecosystems of northern Thailand.It results in a rapid loss of biological diversity of both flora and fau... The conversion of forests into agricultural lands is a major cause of deforestation,particularly in the mountain ecosystems of northern Thailand.It results in a rapid loss of biological diversity of both flora and fauna.In addition,the above-ground biomass(AGB),which can be a major source of carbon storage,is also decreased.This study aimed to predict the AGB in Doi Suthep-Pui National Park,Chiang Mai province,based on land-use/land cover(LULC)changes from 2000 to 2030.Landsat-5 TM(2000)and Landsat-8 TM(2015)satellite images were analyzed to predict LULC changes to 2030.Temporary plots(30 m 930 m)were established in each LULC type for AGB analysis;trees with diameters at breast height≥4.5 cm were identified and measured.AGB of all LULC types were analyzed based on specific allometric equations of each type.The results show that area of forest and nonforested areas fluctuated during the study period.Through the first 15 years(2000–2015),5%(2.9 km^2)of forest changed to either agriculture or urban lands,especially mixed deciduous forest and lower montane forest.There was a similar trend in the 2030 prediction,showing the effect of forest fragmentation and the resultant high number of patches.Total AGB tended to decrease over the 30-year period from 12.5 to 10.6 t ha^-1 in the first and second periods,respectively.Deforestation was the main factor influencing the loss of AGB(30.6 t ha^-1)related to LULC changes.Furthermore,habitat loss would be expected to result in decreased biological diversity.Consequently,a management plan should be developed to avoid unsustainable land use changes,which may adversely affect human well-being. 展开更多
关键词 Land-use changes above-ground biomass Cellular automata Markov chain Doi Suthep-Pui National Park Chiang Mai province
下载PDF
Tree Allometry in Tropical Forest of Congo for Carbon Stocks Estimation in Above-Ground Biomass
12
作者 Romeo Ekoungoulou Xiaodong Liu +4 位作者 Jean Joel Loumeto Suspense Averti Ifo Yannick Enock Bocko Fleury Edgard Koula Shukui Niu 《Open Journal of Forestry》 2014年第5期481-491,共11页
The research was aimed to estimate the carbon stocks of above-ground biomass (AGB) in Lesiolouna forest in Republic of Congo. The methodology of Allometric equations was used to measure the carbon stock of Lesio-louna... The research was aimed to estimate the carbon stocks of above-ground biomass (AGB) in Lesiolouna forest in Republic of Congo. The methodology of Allometric equations was used to measure the carbon stock of Lesio-louna tropical rainforest. The research was done with six circular plots each 40 m of diameter, with a distance of 100 m between each plot, depending on the topography of the site of the installation of these plots. The six studied plots are divided in two sites, which are: Iboubikro and Ngambali. Thus, in the six plots, there are three plots in Iboubikro site and three plots in Ngambali site. The results of this study show that the average carbon stock of aboveground biomass (AGB) in six plots was 170.673 t C ha-1. So, the average of carbon stock of aboveground biomass (ABG) in Iboubikro site was 204.693 t C ha-1 and in the Ngambali site was 136.652 t C ha-1. In this forest ecosystem, the high stock of carbon was obtained in Plot 3, which was in Iboubikro site. Plot 3 contains 20 trees and an average DBH of 24.56 cm. However, the lowest carbon stock was obtained in Plot 4, which was in Ngambali site. Also, Plot 4 contains 11 trees and an average DBH of 31.86 cm. The results of this research indicate that, the forests in the study area are an important carbon reservoir, and they can also play a key role in mitigation of climate change. 展开更多
关键词 Carbon Stock Allometric Equations Ngambali Iboubikro above-ground biomass
下载PDF
Biomass Prediction Equation for Colophospermum mopane (Mopane) in Botswana
13
作者 Patrick S. Mutakela Joyce P. Lepetu +2 位作者 Gofaone Rammotokara Melusi Rampart Sarah Assem Ibrahim 《Journal of Geoscience and Environment Protection》 2023年第6期1-22,共22页
This study aimed to develop a biomass equation for estimating the total above-ground biomass for Colophospermum mopane (mopane) based on the pooled data from three study sites. The mopane woodlands in Botswana represe... This study aimed to develop a biomass equation for estimating the total above-ground biomass for Colophospermum mopane (mopane) based on the pooled data from three study sites. The mopane woodlands in Botswana represent 14.6% of Botswana’s total area. The woodlands directly or indirectly support the livelihood of the majority of the rural population by providing wood and non-wood products. However, there is limited information on the pattern, trends and distribution of woody biomass production and their primary, environmental, and climatic determinants in different parts of Botswana. All the data were collected by destructive sampling from three study sites in Botswana. Stratified random sampling was based on the stem diameter at breast height (1.3 m from the ground or Diameter at Breast Height (DBH)). A total of 30 sample trees at each study site were measured, felled and weighed. The data from the three sites were pooled together, and the study employed regression analysis to examine the nature of relationships between total above-ground biomass (dependent variable) and five independent variables: 1) total tree height;2) crown diameter;3) stem diameters at 0.15 m;1.3 m (DBH) and 3 m from the ground respectively. There were significant relationships between all the independent variables and the dependent variable. However, DBH emerged as the strongest predictor of total tree above-ground biomass for mopane. The equation lnBiomass=-1.163+2.190lnDBH was adopted for use in the indirect estimation of total tree above-ground biomass for mopane in Botswana. 展开更多
关键词 Botswana Colophospermum mopane Crown Diameter Stem Diameter Total above-ground biomass
下载PDF
Biomass Components and Environmental Controls in Ningxia Grasslands 被引量:10
14
作者 WANG Kai-bo LI Jian-ping SHANGGUAN Zhou-ping 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2012年第12期2079-2087,共9页
Grassland plays an important role in the global carbon cycle and climate regulation. However, there are still large uncertainties in grassland carbon pool and also its role in global carbon cycle due to the lack of me... Grassland plays an important role in the global carbon cycle and climate regulation. However, there are still large uncertainties in grassland carbon pool and also its role in global carbon cycle due to the lack of measured grassland biomass at regional scale or global scale with a unified survey method, particular for below-ground biomass. The present study, based on a total of 44 grassland sampling plots with 220 quadrats across Ningxia, investigated the characteristics of above-ground biomass (AGB), below-ground biomass (BGB), litter biomass (LB), total biomass (TB) and root:shoot ratios (R:S) for six predominantly grassland types, and their relationships with climatic factors. AGB, BGB, LB and TB varied markedly across different grassland types, the median value ranging from 28.2-692.6 g m-2 for AGB, 130.4-2 036.6 g m-: for BGB, 9.2-82.3 g m2 for LB, and 168.0-2 681.3 g m-: for TB. R:S showed less variation with median values from 3.2 to 5.3 (excluding marshy meadow). The different grassland types showed similar patterns of biomass allocation, with more than 70% BGB for all types. There is evidence of strong positive effects associated with mean annual precipitation (MAP) and negative effects associated with mean annual temperature (MAT) on AGB, BGB, and LB, although both factors have the opposite effect on R:S. 展开更多
关键词 grasslands above-ground biomass (agb below-ground biomass (BGB) root:shoot ratios (R:S) mean annual precipitation (MAP) mean annual temperature (MAT)
下载PDF
塔吉克斯坦典型草地无人机地上生物量产品
15
作者 潘天力 叶虎平 +5 位作者 张心昱 任小丽 廖小罕 巴音达来 Safarov Mustafo Okhonniyozov Mekhrovar 《中国科学数据(中英文网络版)》 CSCD 2024年第3期64-74,共11页
中亚地区拥有全世界最大的连片草原,塔吉克斯坦作为中亚五国的典型代表,其地表的草地植被状况具有重要研究意义。本研究针对塔吉克斯坦的5个草地典型站点于2022年开展了无人机草地资源调查,数据采样过程严格遵照标准规范进行,基于固定... 中亚地区拥有全世界最大的连片草原,塔吉克斯坦作为中亚五国的典型代表,其地表的草地植被状况具有重要研究意义。本研究针对塔吉克斯坦的5个草地典型站点于2022年开展了无人机草地资源调查,数据采样过程严格遵照标准规范进行,基于固定翼无人机于晴朗天气下搭载光学相机同时采集了多光谱与RGB图像,在航拍结束后通过在地面布设样方刈割植被后处理得到地上生物量数据。使用地面实测生物量数据与无人机多光谱以及RGB信息以广义加性模型建立关系,利用交叉验证对模型数据质量进行控制,实现高精度生物量建模,并将生物量点采样扩展到面尺度上,得到生物量产品分辨率为1 m。本数据集可用于中亚典型草原小区域植被生物量的分析和卫星遥感植被产品的多尺度对比校正,有效弥补了地面观测与常规遥感监测的尺度匹配问题。 展开更多
关键词 无人机 地上生物量 多光谱 RGB 塔吉克斯坦
下载PDF
基于Landsat 8和机器学习的塔城地区草地地上生物量估测模型
16
作者 杨延晓 曹姗姗 +2 位作者 李全胜 张鲜花 孙伟 《湖北农业科学》 2024年第8期66-71,共6页
以新疆塔城地区为研究区,利用植被指数、气象数据、地形数据作为自变量,结合研究区样地实测生物量数据,分析并比较K近邻回归(KNN)、多元线性回归(MLR)、梯度提升决策树(GBDT)和随机森林回归(RF)和极端梯度提升(XGBoost)5种机器学习模型... 以新疆塔城地区为研究区,利用植被指数、气象数据、地形数据作为自变量,结合研究区样地实测生物量数据,分析并比较K近邻回归(KNN)、多元线性回归(MLR)、梯度提升决策树(GBDT)和随机森林回归(RF)和极端梯度提升(XGBoost)5种机器学习模型,进而分析并比较采用投票回归器(Voting regressor)和堆叠(Stacking)方法构建的2种集成学习模型的估测精度。结果表明,基于Stacking集成学习模型性能最优,R^(2)达0.764,RMSE和MAE分别为23.29 g/m^(2)和16.8 g/m^(2),进而利用最优模型进行草地地上生物量(Above ground biomass,AGB)反演制图。 展开更多
关键词 草地地上生物量 Landsat 8 遥感影像 机器学习 估测模型 新疆塔城地区
下载PDF
Differential roles of seed and sprout regeneration in forest diversity and productivity after disturbance
17
作者 Marek Mejstrík Martin Svatek +2 位作者 Martina Pollastrini Martin Sramek Radim Matula 《Forest Ecosystems》 SCIE CSCD 2024年第3期371-380,共10页
Natural regeneration after disturbances is a key phase of forest development,which determines the trajectory of successional changes in tree species composition and diversity.Regenerating trees can originate from eith... Natural regeneration after disturbances is a key phase of forest development,which determines the trajectory of successional changes in tree species composition and diversity.Regenerating trees can originate from either seeds or sprouts produced by disturbed trees with sprouting ability.Although both regeneration strategies often develop and co-occur after a disturbance,they tend to affect forest development differently due to significant functional differences.However,the origin of tree regeneration is rarely distinguished in post-disturbance forest surveys and ecological studies,and the differential roles of seed and sprout regeneration in forest productivity and diversity remain poorly understood.To address these research gaps,we explored the role of sprout and seed regeneration in the formation of woody species diversity and above-ground biomass(AGB)productivity in early-stage forest development.Data were collected in two experimental forest stands in the Czech Republic,where trees were cut with varying intensities with the density of residual(uncut)trees ranging from 0 to 275 trees per hectare.All trees were mapped and their sizes were measured before cutting and then,either as a stump with sprouts or a residual tree,remeasured 11 years later.In addition,all tree saplings were mapped and measured 11 years after logging,and their origin(sprout or seed)was identified.To assess abundances and productivity,we estimated AGB of all2,685 sprouting stumps of 19 woody species and 504 generative(i.e.,seed origin)individuals of 16 woody species,using allometric equations.Mixed-effects models were used to analyze the effects of each regeneration strategy on woody species diversity and the total AGB under varying densities of residual trees.Nonmetric multidimensional scaling was used to evaluate the effect of regeneration strategies on species composition.AGB and diversity of sprouts were significantly higher than those of seed regeneration.Sprouts formed on average97.1%of the total regeneration AGB in H ady and 98.6%in Sobe s ice.The average species richness of sprouts was4.7 in H ady and 2.2 in Sob e sice,while the species richness of seed regeneration averaged 2.1 and 1.1 in H ady and Sob e sice,respectively.Increasing density of residual trees reduced AGB and diversity of both sprouts and seed regeneration,but seed regeneration was affected to a greater extent.Residual trees had an especially strong inhibitory effect on the establishment of seed regeneration.Consequently,seed-originated saplings were nearly absent in plots with high residual tree density,and abundant sprouts accounted for most of the AGB and diversity.However,unlike sprouts whose species composition resembled that of the original stand,seed regeneration brought in new species,enriching the stand?s overall species pool and beta diversity.Our results demonstrated differential roles of sprout and seed regeneration in the early stage of forest succession.Sprout regeneration was the main source of woody AGB productivity as well as species diversity,and its importance increased with the increasing density of standing mature trees.The results indicate the crucial yet previously underestimated role of sprout regeneration in post-disturbance forest dynamics.They suggest that the presence of residual mature trees,whether retained after partial cutting or undisturbed,can substantially suppress seed regeneration while the role of sprout regeneration in early succession becomes more distinctly evident. 展开更多
关键词 RESPROUTING SEEDING Residual trees Tree diversity above-ground biomass
下载PDF
Estimation of biomass in wheat using random forest regression algorithm and remote sensing data 被引量:37
18
作者 Li'ai Wang Xudong Zhou +2 位作者 Xinkai Zhu Zhaodi Dong Wenshan Guo 《The Crop Journal》 SCIE CAS CSCD 2016年第3期212-219,共8页
Wheat biomass can be estimated using appropriate spectral vegetation indices.However,the accuracy of estimation should be further improved for on-farm crop management.Previous studies focused on developing vegetation ... Wheat biomass can be estimated using appropriate spectral vegetation indices.However,the accuracy of estimation should be further improved for on-farm crop management.Previous studies focused on developing vegetation indices,however limited research exists on modeling algorithms.The emerging Random Forest(RF) machine-learning algorithm is regarded as one of the most precise prediction methods for regression modeling.The objectives of this study were to(1) investigate the applicability of the RF regression algorithm for remotely estimating wheat biomass,(2) test the performance of the RF regression model,and(3) compare the performance of the RF algorithm with support vector regression(SVR) and artificial neural network(ANN) machine-learning algorithms for wheat biomass estimation.Single HJ-CCD images of wheat from test sites in Jiangsu province were obtained during the jointing,booting,and anthesis stages of growth.Fifteen vegetation indices were calculated based on these images.In-situ wheat above-ground dry biomass was measured during the HJ-CCD data acquisition.The results showed that the RF model produced more accurate estimates of wheat biomass than the SVR and ANN models at each stage,and its robustness is as good as SVR but better than ANN.The RF algorithm provides a useful exploratory and predictive tool for estimating wheat biomass on a large scale in Southern China. 展开更多
关键词 above-ground dry biomass TRITICUM AESTIVUM VEGETATION indices WHEAT
下载PDF
Estimating aboveground biomass in Mu Us Sandy Land using Landsat spectral derived vegetation indices over the past 30 years 被引量:20
19
作者 Feng YAN Bo WU YanJiao WANG 《Journal of Arid Land》 SCIE CSCD 2013年第4期521-530,共10页
Remote sensing is a valuable and effective tool for monitoring and estimating aboveground biomass (AGB) in large areas.The current international research on biomass estimation by remote sensing technique mainly focu... Remote sensing is a valuable and effective tool for monitoring and estimating aboveground biomass (AGB) in large areas.The current international research on biomass estimation by remote sensing technique mainly focused on forests,grasslands and crops,with relatively few applications for desert ecosystems.In this paper,Landsat Thematic Mapper (TM)/Enhanced Thematic Mapper Plus (ETM+) images from 1988 to 2007 and the data of 283 AGB samples in August 2007 were used to estimate the AGB for Mu Us Sandy Land over the past 30 years.Moreover,temporal and spatial distribution characteristics of AGB and influencing factors of climate and underlying surface were also studied.Results show that:(1) Differences of correlations exist in the fitted equations between AGB and different vegetation indices in desert areas.The modified soil adjusted vegetation index (MSAVI) and soil adjusted vegetation index (SAVI) show relatively higher correlations with AGB,while the correlation between normalized difference vegetation index (NDVI) and AGB is relatively lower.Error testing shows that the AGB-MSAVI model established can be used to accurately estimate AGB of Mu Us Sandy Land in August.(2) AGB in Mu Us Sandy Land shows the fluctuant characteristics over the past 30 years,which decreased from the 1980s to the 1990s,and increased from the 1990s to 2007.AGB in 2007 had the highest value,with a total AGB of 3.352×106 t.Moreover,in the 1990s,AGB had the lowest value with a total AGB of 2.328×106 t.(3) AGB with relatively higher values was mainly located in the middle and southern parts of Mu Us Sandy Land in the 1980s.AGB was low in the whole area in the1990s,and relatively higher AGB values were mainly located in the southern parts of Uxin.In 2007,AGB in the whole area was relatively higher than those of the last twenty years,and higher AGB values were mainly located in the northern,western and middle parts of Mu Us Sandy Land. 展开更多
关键词 aboveground biomass (agb linear regression vegetation indices Mu Us Sandy Land
下载PDF
Ecological biomass allocation strategies in plant species with different life forms in a cold desert, China 被引量:5
20
作者 FAN Lianlian DING Junxiang +1 位作者 MA Xuexi LI Yaoming 《Journal of Arid Land》 SCIE CSCD 2019年第5期729-739,共11页
Biomass allocation patterns among plant species are related to their adaptive ecological strategies. Ephemeral, ephemeroid and annual plant life forms represent three typical growth strategies of plants that grow in a... Biomass allocation patterns among plant species are related to their adaptive ecological strategies. Ephemeral, ephemeroid and annual plant life forms represent three typical growth strategies of plants that grow in autumn and early spring in the cold deserts of China. These plants play an important role in reducing wind velocity in the desert areas. However, despite numerous studies, the strategies of biomass allocation among plant species with these three life forms remain contentious. In this study, we conducted a preliminary quadrat study during 2014–2016 in the southern part of the Gurbantunggut Desert, China, to investigate the allocation patterns of above-ground biomass(AGB) and below-ground biomass(BGB) at the individual level in 17 ephemeral, 3 ephemeroid and 4 annual plant species. Since ephemeral plants can germinate in autumn, we also compared biomass allocation patterns between plants that germinated in autumn 2015 and spring 2016 for 4 common ephemeral species. The healthy mature individual plants of each species were sampled and the AGB, BGB, total biomass(TB), leaf mass ratio(LMR) and root/shoot ratio(R/S) were calculated for 201 sample quadrats in the study area. We also studied the relationships between AGB and BGB of plants with the three different life forms(ephemeral, ephemeroid and annual). The mean AGB values of ephemeral, ephemeroid and annual plants were 0.806, 3.759 and 1.546 g/plant, respectively, and the mean BGB values were 0.106, 4.996 and 0.166 g/plant, respectively. The mean R/S value was significantly higher in ephemeroid plants(1.675) than in ephemeral(0.154) and annual(0.147) plants. The mean LMR was the highest in annual plants, followed by ephemeroid plants and ephemeral plants, reflecting the fact that annual plants allocate more biomass to leaves, associated with their longer life span. Biomass of ephemeral plants that germinated in autumn was significantly higher than those of corresponding plants that germinated in spring in terms of AGB, BGB and TB. However, the R/S value was similar in plants that germinated in autumn and spring. The slope of regression relationship between AGB and BGB differed significantly among the three plant life forms. These results support different biomass allocation hypotheses. Specifically, at the individual level, the AGB and BGB partitioning supports the allometric hypothesis for ephemeroid and annual plants and the isometric hypothesis for ephemeral plants. 展开更多
关键词 above-ground biomass BELOW-GROUND biomass plant life forms HERBACEOUS species ALLOMETRIC HYPOTHESIS ISOMETRIC HYPOTHESIS Gurbantunggut Desert
下载PDF
上一页 1 2 3 下一页 到第
使用帮助 返回顶部