Understory plant diversity and phenolic allelochemicals across a range of Eucalyptus grandis plantation ages

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作者 Jinjin Li Yumei Huang +3 位作者 Lianghua Chen Shun Gao Jian Zhang Danju Zhang 《Journal of Forestry Research》 SCIE CAS CSCD 2023年第5期1577-1590,共14页

Allelopathy is an important mechanism in Eucalyptus plantations that causes detrimental impacts on understory diversity.Phenolic compounds are the main allelochemicals suppressing understory plants.However,the dynamic... Allelopathy is an important mechanism in Eucalyptus plantations that causes detrimental impacts on understory diversity.Phenolic compounds are the main allelochemicals suppressing understory plants.However,the dynamic changes in phenolic allelochemicals and their relationship with understory diversity with increasing age of Eucalyptus plantations remain largely unclear.In this study,the understory plant diversity was assessed and phenolic compounds identified from leaf litter,roots,and rhizosphere soil samples in a Eucalyptus grandis plantation at two-year intervals for ten years using ultra-performance liquid chromatography-tandem mass spectrometry(UPLC-MS/MS).The abundance and diversity of under story plant species were lowest in 4-year-old plantations and increased significantly with age.Seven phenolic acids and 10 flavonoids were identified from leaf litter,roots,and rhizosphere soils.Most of the potential phenolic allelochemicals,such as salicylic acid,gallic acid,4-hydroxybenzoic acid,and epicatechin,were more abundant in younger plantations,especially at4 years old.The concentrations of phenolic compounds in the rhizosphere zone were significantly lower than in litter and root samples and did not change significantly with an increase in age.Notably,phenolic compounds contributed more to the variation in the understory plants than soil factors.Hydroxyphenyllactic acid,ellagic acid,quercetin,salicylic acid,and 4-hydroxybenzoic acid were the main phenolic compounds explaining the variation in plant diversity with plantation age.These findings indicate that young E.grandis plantations,especially at four years of age,merit a greater focus because of their lower understory plant diversity and higher allelopathic potential. 展开更多

关键词 eucalyptus grandis Phenolic compounds Understory plant diversity Plantation age

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Eucalyptus grandis plantations:effects of management on soil carbon,nutrient contents and yields 被引量：4

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作者 Diego Martin Sandoval Lopez Marcelo Fabian Arturi +2 位作者 Juan Francisco Goya Carolina Alejandra Perez Jorge Luis Frangi 《Journal of Forestry Research》 SCIE CAS CSCD 2020年第2期601-611,共11页

The expansion of fast-growing tree plantations is a worldwide process,with consequences on soil fertility and soil carbon storage.Disparate results were found on the effects of afforestation with Eucalyptus on soil ca... The expansion of fast-growing tree plantations is a worldwide process,with consequences on soil fertility and soil carbon storage.Disparate results were found on the effects of afforestation with Eucalyptus on soil carbon and other nutrient contents.These discrepancies are usually caused by differences in climate,land use history,soil texture as well as by management related factors such as plantation age,number of rotations,method of establishment(plantation or coppice),harvest residue management and soil preparation.We studied the effect of plantation age,number of rotations,and method of establishment on soils and plant nutrient concentrations in Eucalyptus grandis plantations in NE Argentina on different textured soils.We also determined if yields changed with nutrient variations in soils,and compared soils under plantations to soils under grasslands they replaced.Thirty-one E.grandis stands of different ages,number of rotations and method of establishment were evaluated as well as eight grassland sites.Levels of carbon,nitrogen,phosphorus,potassium,calcium and magnesium were determined for soils and plants.Soil carbon and nitrogen decreased over the number of rotations and were more pronounced in soils with 50-60%sand than soils with>75%sand.Coppice stands showed higher soil carbon and nitrogen levels than plantations,suggesting a negative effect of site preparation before planting on soil nutrient conservation,especially in fine-textured soils.Foliar nutrient concentrations did not follow the trends observed for soil nutrients nor did they reflect nutrient limitations.There was no evidence of decreased yields over successive rotations.Soil carbon and nitrogen contents decrease when grasslands are replaced by E.grandis plantations,and therefore a yield limitation may occur in a medium to long-term frame,especially in stands re-established for short-rotation management.Harvest residue management and site preparation must be specifically designed for improving soil nutrient management. 展开更多

关键词 Soil texture Grasslands Foliar nutrient concentrations Successive harvest COPPICE eucalyptus grandis

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Variation of basic density,calorific value and volumetric shrinkage within tree height and tree age of Ugandan grown Eucalyptus grandis wood 被引量：1

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作者 Owen Emmanuel Sseremba P.Mugabi +2 位作者 A.Y.Banana B.C.Wessels M.Plessis 《Journal of Forestry Research》 SCIE CAS CSCD 2021年第2期503-512,共10页

Insufficient knowledge on Ugandan grown Eucalyptus grandis W.Hill ex Maiden wood properties,high demand,and processing challenges led to a study into its physical properties.We obtained the variation of basic density(... Insufficient knowledge on Ugandan grown Eucalyptus grandis W.Hill ex Maiden wood properties,high demand,and processing challenges led to a study into its physical properties.We obtained the variation of basic density(BD),calorific value(CV)and volumetric shrinkage(VS)within tree height and tree-age of E.grandis,and its appropriate use based on these properties.Trees with good boles were harvested from Kabarole District in western Uganda to produce specimens as prescribed by British Standards and ASTM standard wood testing procedures.Secondary data reviews and statistical analysis using ANOVA,Tukey’s test and multivariate analysis were done to obtain property estimates and their variation within trees and amongst tree ages.The mean BD of E.grandis is 413.6,380.5,471.0,and 501.1 kg m^(−3)at 3,6,9,and 12 years,respectively,showing significant increase with tree age(p=0.003).The pattern of BD with tree height showed a reduction with tree height although with higher values in the middle portion of the tree.The CV increases(p=0.014)with tree age and reduces with tree height with values of 14,560.32,15,447.3,16,079.11,and 16,932.6 kJ kg^(−1)at 3,6,9,and 12 years,respectively.The percentage VS was 11.02,9.84,12.31,and 14.45 for 3-,6-,9-,and 12-year-old trees,respectively,and it did not vary significantly(p=0.088)with tree height.Basing on these property values,E.grandis wood could be used for scaffolding,light constructions and fuel wood production.Its seasoning needs to be longer with well monitored drying schedules to reduce seasoning defects caused by the high VS.Further studies on strength properties,seasoning schedules,panel products properties and tree-age chemical variations would improve the knowledge about its wood quality and would enhance its efficient utilization. 展开更多

关键词 eucalyptus grandis Age Calorificvalue Basic density Volumetric shrinkage WOOD

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Fire alters the availability of soil nutrients and accelerates growth of Eucalyptus grandis in Zambia

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作者 Donald Chungu Phillimon Ng’andwe +1 位作者 Henry Mubanga Felix Chileshe 《Journal of Forestry Research》 SCIE CAS CSCD 2020年第5期1637-1645,共9页

Fire has been used to prepare land during tree plantation establishment for many years but uncertainty about how ecosystems respond to prescribed burning makes it difficult to predict the effects of fire on soil nutri... Fire has been used to prepare land during tree plantation establishment for many years but uncertainty about how ecosystems respond to prescribed burning makes it difficult to predict the effects of fire on soil nutrients.The aim of this study was to determine the effect of burning accumulated forest residues(slash)on soil chemical properties and how trees respond.We analyzed 40 burned and unburned sites and compared growth of Eucalyptus grandis W.Hill ex Maiden between sites.Soil pH increased by 39%after fire,suggesting reduced soil acidity and increased liming.Total nitrogen increased by 100%;other nutrients(Ca^2+,Mg^2+and K^+)also increased.Increase in nutrients had a significant effect on the growth of E.grandis;larger and taller trees were associated more with burned than unburned sites.This study provides evidence that burning accumulated slash during land preparation prior to plantation establishment alters soil nutrient status and enhances the growth of E.grandis. 展开更多

关键词 Nitrogen mineralization Forest residue burning Soil nutrients Zambia exotic plantations Plantation establishment eucalyptus grandis

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Preliminary evaluation of liquefaction behavior of Eucalyptus grandis bark in glycerol

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作者 Xingyan Huang Feng Li +5 位作者 Jiulong Xie Cornelis F.De Hoop Xiaopeng Peng Jinqiu Qi Yuzhu Chen Hui Xiao 《Journal of Forestry Research》 SCIE CAS CSCD 2020年第2期687-691,共5页

Eucalyptus grandis W.Hill ex Maiden bark was liquefied in glycerol with two types of catalysts.The chemical components of the residues with respect to temperature were examined to investigate the liquefaction behavior... Eucalyptus grandis W.Hill ex Maiden bark was liquefied in glycerol with two types of catalysts.The chemical components of the residues with respect to temperature were examined to investigate the liquefaction behavior of bark.The results reveal that sulfuric acid was more efficient in converting bark into fragments in glycerol at low temperatures B 433.15 K,equivalent to 160C than phosphoric acid.The liquefaction order of chemical components was lignin,hemicelluloses,and cellulose.The decrease of liquefaction yields at high temperatures(≤453.15 K)catalyzed by sulfuric acid was possibly a result of the recondensation of lignin and/or hemicelluloses. 展开更多

关键词 Chemical components eucalyptus grandis bark LIQUEFACTION Liquefied residue

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Corrective Interventions to End-Splitting and Surface Cracking in Kenya Grown Eucalyptus grandis Poles

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作者 George Muthike Godfrey Ali +2 位作者 Nellie Oduor Paul Munene Joseph Githiomi 《Open Journal of Forestry》 2022年第3期380-392,共13页

This study determined the effect of three pole pre-drying handling techniques, on end-splitting and surface checking in Eucalyptus grandis poles from highland and low land areas in Kenya. A total of 144 Eucalyptus gra... This study determined the effect of three pole pre-drying handling techniques, on end-splitting and surface checking in Eucalyptus grandis poles from highland and low land areas in Kenya. A total of 144 Eucalyptus grandis trees were sampled from two sites;Kericho, representing the wet highlands and Londiani representing the drier lowlands regions of Kenya. Pole samples from both sites were subjected to the three pre-drying handling techniques for the first 30 days after felling and allowed to dry to the required moisture level under observations. The number of end splits and surface checks on each sample pole were counted and the length of the worst ones was measured in millimeters after every 15 days until all the poles reached 25% MC. The sap wood and heart wood ratios were determined from selected samples. Results showed that on the overall, poles from high land areas had the highest sapwood proportions and similarly had the highest number and the longest end splitting and surface checks. On the other hand, pre-drying techniques that allowed felled trees to dry slowly with their foliage intact for the first 30 days of felling produced the best quality poles, with fewer and shallower end splits and surface checks. The study recommended that felling and leaving poles to dry slowly with foliage intact be considered in reducing losses incurred as a result of wood stresses during drying of poles. 展开更多

关键词 eucalyptus grandis Wood Cracking Wood Stresses Wood Drying

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Influence of Planting Spacing on Mechanical Properties of Eucalyptus grandis × E. urophylla Planted in China 被引量：2

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作者 HENSON Michael 《Chinese Forestry Science and Technology》 2008年第1期57-63,共7页

The objective of this study was to understand influence of planting spacing on mechanical properties of Eucalyptus grandis × E. urophylla planted as a potential species for solid wood products in China. Four tree... The objective of this study was to understand influence of planting spacing on mechanical properties of Eucalyptus grandis × E. urophylla planted as a potential species for solid wood products in China. Four trees at age of 13 were selected from each of 6 groups of planting spacing and a total of 24 sampling trees were selected from the Dongmen Forestry Center of Guangxi Province in China. Furthermore, a one-meter-long log from each tree was cut into small blocks for wood properties testing. MOE, MOR and compression strength parallel to wood grain were determined in accordance with Chinese standards. In addition, wood density and shrinkage properties were measured. Statistical analysis by SAS software indicated significant differences among the 6 groups of planting spacings on the air-dried density, radial shrinkage and bending MOR properties at the 0.05 level, and also on the compression strength at the 0.10 level. However, it was observed that there is no significant differences among shrinkages in tangential and volume, and MOE. 展开更多

关键词 planting spacing mechanical properties DENSITY SHRINKAGE eucalyptus grandis × E. urophylla PLANTATION

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Effect of Initial Moisture Content on Solar Drying Ratefor Eucalyptus grandis × E. urophylla

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作者 GAN Xuefei YI Songlin 《Chinese Forestry Science and Technology》 2011年第Z1期12-18,共7页

Wood drying is one of the most important process links in wood products processing.However, the existing drying methods mainly depend on heat to desiccate wood, which makes wooddrying consume roughly 40% - 70% of the ... Wood drying is one of the most important process links in wood products processing.However, the existing drying methods mainly depend on heat to desiccate wood, which makes wooddrying consume roughly 40% - 70% of the total energy in the entire wood process. Using solar energyfor drying is greatly significant in two aspects of energy conservation and environment protection. Themoisture content (MC) of lumber affects not only the target value of wood drying, but also the heattransfer properties, moisture rate of expansion, etc., affecting dried lumber quality and drying rate.Eucalyptus grandis × E.urophylla lumbers were collected from Guangdong as test materials and dried inthe solar dryer with low temperature schedule and the effect of initial moisture content were primarystudied on drying rate. Experiments showed that solar drying was suitable for timber with high MC. Interms of drying rate and dried lumber quality, solar drying was as good as traditional steam drying withthe same schedule. And the solar dryer had distinct energy-saving effect. 展开更多

关键词 eucalyptus grandis×E.urophylla drying rate solar energy moisture content

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Morphological and kinetic parameters of the absorption of nitrogen forms for selection of Eucalyptus clones

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作者 Matheus Severo de Souza Kulmann Betania Vahl de Paula +6 位作者 Paula Beatriz Sete Wagner Squizani Arruda Gabriel Alberto Sans Camila Peligrinotti Tarouco Luciane Almari Tabaldi Fernando Teixeira Nicoloso Gustavo Brunetto 《Journal of Forestry Research》 SCIE CAS CSCD 2021年第4期1599-1611,共13页

Eucalyptus clones are selected according to productivity,wood quality,rooting capacity,and resistance to drought,frost and diseases.However,kinetic and morphological parameters that determine the absorption efficiency... Eucalyptus clones are selected according to productivity,wood quality,rooting capacity,and resistance to drought,frost and diseases.However,kinetic and morphological parameters that determine the absorption efficiency of nutrients such as nitrate(NO_(3)^(-)) and ammonium(NH_(4)^(+))are often not considered in breeding programs.The objective of this study was to evaluate the morphological,physiological and kinetic parameters of nitrogen uptake by clones of Eucalyptus saligna(32,864) and Eucalyptus grandis(GPC23).Morphological parameters in shoot and root systems,biomass and N concentrations in different organs,photosynthetic pigment concentrations,parameters of chlorophyll a fluorescence and photosynthetic rates were evaluated.Kinetic parameters,maximum absorption velocity(V_(max)),Michaelis-Menten constant(K_(m)),minimum concentration(C_(min)) and influx(I) were calculated for NO_(3)^(-)and NH_(4)^(+) in the two clones.E.granais clone was more efficient in the uptake of NO_(3)^(-)and NH_(4)^(+),and showed lower K_(m) and C_(min)values,allowing for the absorption of nitrogen at low concentrations due to the high affinity of the absorption sites of clone roots to NO_(3)^(-)and NH_(4)^(+).Higher root lengths,area and volume helped the E.grandis clone in absorption efficiency and consequently,resulted in higher root and shoot biomass.The E.saligna clone had higher K_(m) and Cmin for NO_(3)^(-)and NH_(4)^(+),indicating adaptation to environments with higher N availability.The results of NO_(3)^(-)and NH_(4)^(+) kinetic parameters indicate that they can be used in Eucalyptus clone selection and breeding programs as they can predict the ability of clones to absorb NO_(3)^(-)and NH_(4)^(+) at different concentrations. 展开更多

关键词 Ammonium and nitrate eucalyptus saligna eucalyptus grandis Root system architecture Nitrogen influx Maximum absorption velocity(V_(max)) Michaelis–Menten constant(K_(m)) Minimum concentration(C_(min))

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Characterization of Lignin before and after Exposure to the Gastrointestinal Tract of Ruminants

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作者 E. O. S. Saliba D. Pilo-Veloso +7 位作者 N. M. Rodriguez E. A. Capanema J. S. Saliba A. L. C. C. Borges L. C. Gonçalves I. Borges D. G. Jayme R. R. Silva 《American Journal of Analytical Chemistry》 2016年第11期748-753,共6页

The aim of this study was to investigate the structural composition of lignin (LIPE®) extracted from Eucalyptus grandis, before and after exposure to the gastrointestinal tract of ruminants. For this study lig... The aim of this study was to investigate the structural composition of lignin (LIPE®) extracted from Eucalyptus grandis, before and after exposure to the gastrointestinal tract of ruminants. For this study lignin was isolated, purified and characterized using ¹H and ¹³C Nuclear Magnetic Resonance Spectroscopy, nitrobenzene oxidation, functional groups analysis and gas chromatography with mass spectroscopy. To have a better understanding of lignin morphology and of its ultra structure, electron microscopy in wood cell wall was utilized. The lignin fecal samples showed similar ¹H NMR spectrums and nitrobenzene oxidation products compared with LIPE®. The result of the microanalysis of LIPE®was similar to data shown in the literature. The ultra structure of lignin was similar to that of Bamboo (hard wood). The lignin isolated from feces of sheep was identical to the original LIPE®, which means that this product can be used as an external marker in protein digestibility in sheep. 展开更多

关键词 LIGNIN eucalyptus grandis RUMINANT

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Growth Process of Eucalyptus urophylla × E.grandis Stand Based on Logistic Equation 被引量：1

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作者 LONG Tengzhou1 MENG Yongqing1 XIANG Dongyun2 YU Lei1 YE Bing1 1. Research Institute of Forestry Policy and Information, Chinese Academy of Forestry Beijing 100091, P.R.China 2. Guangxi Academy of Forestry, Nanning 530001, P.R.China 《Chinese Forestry Science and Technology》 2008年第2期1-6,共6页

Eucalyptus is the most valuable cultivated forest genus in the tropical and subtropical areas nowadays. It has been a challenge for foresters to model growth due to the genetic variations, management regimes, and mult... Eucalyptus is the most valuable cultivated forest genus in the tropical and subtropical areas nowadays. It has been a challenge for foresters to model growth due to the genetic variations, management regimes, and multiple products generated from the plantations. In this paper, Logistic equation was used to study the stock growth process of E. urophylla × E. grandis plantation at age of 14 with 6 spacing treatments. And the biological interpretation of the parameters of Logistic equation was analyzed. The results show that it is flexible, precise and accurate to fit the growth process. 展开更多

关键词 eucalyptus urophylla × E. grandis STOCK Logistic equation GROWTH

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不同坡向对尾巨桉人工林林下草本植物多样性的影响

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作者 曹现富 王晓丽 +2 位作者 邹广权 李艳 曹子林 《林业科技通讯》 2023年第8期93-96,共4页

为了解不同坡向对尾巨桉(Eucalyptus urophylla×E.grandis)人工林林下草本植物多样性(Margalef指数dMa、Simpson指数D、Shannon-wiener指数H、Pielou指数J)的影响,以云南省临沧市双江县忙安林场8年生人工林为研究对象,设置不同坡向... 为了解不同坡向对尾巨桉(Eucalyptus urophylla×E.grandis)人工林林下草本植物多样性(Margalef指数dMa、Simpson指数D、Shannon-wiener指数H、Pielou指数J)的影响,以云南省临沧市双江县忙安林场8年生人工林为研究对象,设置不同坡向(阳坡、半阳坡、阴坡、半阴坡)的12个样地进行调查。研究结果显示:1)尾巨桉人工林共调查统计到林下草本植物30种,隶属16科28属,草本层植物物种数在阴坡、半阴坡相同且均高于阳坡、半阳坡。2)不同坡向尾巨桉人工林林下草本物种主要以禾本科的芭茅、菊科的紫茎泽兰为优势物种,占据主导地位。3)不同坡向尾巨桉人工林林下草本层植物在半阴坡的dMa、D、H、J值最大,阳坡最小。综合不同坡向尾巨桉人工林林下植物多样性指数分析比较,阴坡更有利于林下草本植物的生存。 展开更多

关键词 尾巨桉 eucalyptus urophylla×E.grandis 坡向 林下草本植物 多样性

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巨尾桉人工林林木二元形高模型的研建

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作者 高德祥 韦文长 《林业科技通讯》 2022年第6期17-21,共5页

为研究巨尾桉(Eucalyptus grandis×E.urophylla)人工林林木二元形高模型,利用编制双江县巨尾桉二元立木材积表的138株造材样木实测数据(随机划分编表样本103株,检验样本35株),使用SPSS 21.0软件非线性回归分析工具对8个常用的二元... 为研究巨尾桉(Eucalyptus grandis×E.urophylla)人工林林木二元形高模型,利用编制双江县巨尾桉二元立木材积表的138株造材样木实测数据(随机划分编表样本103株,检验样本35株),使用SPSS 21.0软件非线性回归分析工具对8个常用的二元形高备选模型进行拟合,根据分析计算的相关指数(R2)、均方差(RMSE)、平均绝对偏差(MAD)、总相对误差(RS)、模型预估精度(P)等指标对模型进行统计分析和综合评价,结果表明:模型FH=aHb Dc和FH=aHb/Dc的各项评价指标综合得分并列最高,基于国内外林学界在二元形高模型方面的应用传统,本研究选定FH=aHb/Dc作为巨尾桉人工林林木二元形高的编表模型,代入参数值的模型表达式为FH=0.633358 H^(1.356645)/D^(0.493597)。使用35株检验样本实测数据进行适用性检验的结果表明:模型的相关指数(R2)为0.90480,估计值的均方差(RMSE)为0.61151,平均绝对偏差(MAD)为0.50557,总相对误差(RS)为1.561%,预估精度(P)为98.52%;经残差检验,检验样本残差图以横轴为中轴线分布均匀;经进行F检验,计算得F值为0.96,小于F_(0.05)(1,33)的查表值4.14。生产性检验的结果表明:模型的相关指数(R2)为0.99035,估计值的均方差(RMSE)为3.37780,平均绝对偏差(MAD)为2.85151,总相对误差(RS)为1.836%,预估精度(P)为99.48%。编表样本和检验样本的各项评价指标结果表明,模型FH=0.633358 H^(1.356645)/D^(0.493597)的拟合精度高、误差小,适合作为巨尾桉人工林林木的二元形高模型,以此为基础编制的二元形高表可以在生产实践中应用。 展开更多

关键词 巨尾桉 eucalyptus grandis×E.urophylla 人工林 林木 二元形高模型

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巨尾桉根径一元材积表的编制 被引量：1

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作者 韦文长 高德祥 +1 位作者 刘世雄 刘明奎 《林业科技通讯》 2022年第4期40-45,共6页

使用编制县级巨尾桉(Eucalyptus grandis×E.urophylla)胸径一元材积表的138株解析木,分编表样本103株,检验样本35株。以根径立木材积表编制技术规程推荐的13个根径-胸径回归方程作为备选模型,根据103株编表样本的根径和胸径数据,应... 使用编制县级巨尾桉(Eucalyptus grandis×E.urophylla)胸径一元材积表的138株解析木,分编表样本103株,检验样本35株。以根径立木材积表编制技术规程推荐的13个根径-胸径回归方程作为备选模型,根据103株编表样本的根径和胸径数据,应用Levenberg-Marquardt迭代法进行拟合评价,以离差平方和、相关系数、总相对误差、相对误差平均值、相对误差绝对值作为评价指标,选择拟合效果最好的回归方程作为编表模型。编表样本各备选回归方程评价指标的结果表明:根径-胸径回归方程以D=a_(0)+a_(1)×DR+a_(2)×DR^(2)+a_(2)×DR^(3)为最优,主要的两项评价指标相关系数(R)为0.98148,总相对误差(RS)为0.03358%,显示回归模型具有很高的拟合精度。经使用35株检验样本对优选的根径-胸径回归模型进行适用性检验,结果显示:总相对误差(RS)为1.43519%,在±5%的误差范围内;相对误差绝对值平均值(REAA)为5.93209%,在10%的误差范围内;F检验统计量为1.08,小于F_(0.05)(1,33)的临界值4.14,检验的结果表明模型适用。本文通过根径和胸径回归备选模型拟合、评价选优和适用性检验,利用最优根径-胸径回归方程中两个变量之间的回归关系,以编表样本中最小根径和最大根径值作为编表的根径幅度,以1 cm作为根径一元材积表的径阶距,导入县级巨尾桉胸径一元材积表公式V=0.000256 D^(2.281034)1.013750^(D),编制形成巨尾桉根径一元材积表。 展开更多

关键词 巨尾桉 eucalyptus grandis×E.urophylla 根径 一元材积表 编制

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巨尾桉林分直径结构与材种出材率模型 被引量：1

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作者 韦文长 高德祥 《林业科技通讯》 2022年第7期15-19,共5页

为研究巨尾桉(Eucalyptus grandis×E.urophylla)林分直径结构与林分材种结构的相关关系,构建高精度的林分材种出材率模型,以云南省临沧市双江县123个巨尾桉伐区小班的标准地每木检尺及造材数据作为研究对象,分82个建模样本和41个... 为研究巨尾桉(Eucalyptus grandis×E.urophylla)林分直径结构与林分材种结构的相关关系,构建高精度的林分材种出材率模型,以云南省临沧市双江县123个巨尾桉伐区小班的标准地每木检尺及造材数据作为研究对象,分82个建模样本和41个检验样本。在建模样本中,分别使用林分平均胸径、径阶林木株数比率模型和径阶断面积比率模型计算标准地林分材种出材率,分析评价基于这3种方法计算的林分材种出材率预测值与实测值的编表精度。建模样本的拟合评价结果显示,使用林分平均胸径测算的造纸原木、胶合板原木和经济材林分材种出材率平均系统误差分别为21.03%、-30.37%和1.7%,总体误差较大;基于径阶林木株数比率模型构建的造纸原木、胶合板原木和经济材林分材种出材率模型的相关指数R^(2)分别为0.80057、0.79612、0.76195,基于径阶断面积比率模型构建的造纸原木、胶合板原木和经济材林分材种出材率模型的相关指数R2分别为0.99992、0.99918、0.99914,径阶断面积比率模型构建的林分材种出材率模型精度最高。使用41个检验样本的林分材种出材率预测值与实测值数据,对径阶断面积比率模型构建的林分材种出材率模型进行检验,结果显示:造纸原木、胶合板原木和经济材林分材种出材率的平均系统误差分别为0.27%、-0.22%和-0.02%,具有很高的编表精度;置信椭圆F-检验的结果造纸原木、胶合板原木的F-统计量分别为1.48和1.54,均小于F_(0.01)(2,38)的临界值5.21;对经济材预测值与实测值进行独立样本t检验的结果显示,经济材林分材种出材率预测值与实测值两总体样本没有显著差异。研究表明,径阶断面积比率模型能更准确地反映林分的直径分布状态,以此为基础可以构建高精度的林分材种出材率模型。 展开更多

关键词 巨尾桉 eucalyptus grandis×E.urophylla 林分直径结构 林分材种出材率模型

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尾巨桉等桉树无性系生长特性分析及选择 被引量：6

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作者 陈健波 郭东强 +4 位作者 朱建武 李昌荣 邓紫宇 卢翠香 黄锦芬 《林业科技通讯》 2020年第8期27-31,共5页

对尾巨桉(Eucalyptus urophylla×E.grandis)、巨尾桉(E.grandis×E.urophylla)、尾叶桉(E.urophylla)无性系试验林生长性状和干形进行了分析,为选择优良无性系提供科学依据。结果表明,不同无性系及同一无性系在不同林龄时的胸... 对尾巨桉(Eucalyptus urophylla×E.grandis)、巨尾桉(E.grandis×E.urophylla)、尾叶桉(E.urophylla)无性系试验林生长性状和干形进行了分析,为选择优良无性系提供科学依据。结果表明,不同无性系及同一无性系在不同林龄时的胸径、树高、单株材积生长率均有所不同,总体上QL4、QL7无性系生长率较大,而QL1、QL2无性系的生长率则较小;林龄1.5年及6.5年时无性系间胸径、单株材积均有显著差异,而无性系间树高仅在林龄1.5龄时差异显著;其余林龄无性系间的差异均不显著。用6.5年生参试无性系胸径、树高、单株材积、干形观测值对各无性系进行综合评定,结果QL7无性系的综合评定结果最佳,被评为优良无性系,其6.5年生时平均胸径、树高、单株材积分别是16.83 cm、21.42 m、0.233 1 m^3;而QL1无性系综合评定排最后一位;因此,不同无性系及同一无性系在不同阶段的生长表现均有所不同,无性系间胸径、单株材积在其生长的早期及后期均存在显著差异,而树高则在早期差异显著,所选择的QL7优良无性系可在试验地所在区域推广种植。 展开更多

关键词 尾巨桉 eucalyptus urophylla×E.grandis 巨尾桉 E.grandis×E.urophylla 尾叶桉 E.urophylla 生长率 生长差异

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引入哑变量的广西尾巨桉人工林地位指数模型拟合效果分析

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作者 陆海飞 徐建民 +4 位作者 刘望舒 李光友 范春节 梁保智 张磊 《林业科技通讯》 2022年第11期3-9,共7页

通过对广西中南部尾巨桉(Eucalyptus urophylla×Eucalyptus grandis)人工林树高—林龄生长规律及其建模的研究,为广西尾巨桉人工林产量预估、间伐抚育培育大径材和林分经营管理提供科学依据。以北回归线以南广西中南部地区118块尾... 通过对广西中南部尾巨桉(Eucalyptus urophylla×Eucalyptus grandis)人工林树高—林龄生长规律及其建模的研究,为广西尾巨桉人工林产量预估、间伐抚育培育大径材和林分经营管理提供科学依据。以北回归线以南广西中南部地区118块尾巨桉人工林20 m×20 m的样地为研究对象,利用标准地调查获取的基础数据,对不同立地环境优势木高-树龄生长曲线模型进行拟合,经引入哑变量对最优生长模型进行选择。根据基准年龄时优势木树高变化值,结合生长特性确定指数级间距并划分地位指数级。结果表明:树高生长的最优基础模型和引入哑变量的优化模型均为Richards方程,哑变量模型的R^(2)和RMSE分别为0.983和2.160;单形和多形生长方程的卡方值χ^(2)分别为7.465和5.699,精确度p分别为0.877和0.970;地位指数表编制时,确定基准年龄为6年,并将指数级确定成2 m为间距,划分为6个地位指数级(17、19、21、23、25、27 m)。Richards导向曲线方程和引入哑变量的非线性混合效应模型的精度检验、卡方检验及残差检验均表明:所选理查德生长方程与所编地位指数表适用于研究区域人工林,能客观反映该区域尾巨桉人工林的生长状况。同时,构建的立地质量等级哑变量模型有益于提高建模的精确度和适用性。 展开更多

关键词 尾巨桉 eucalyptus urophylla×eucalyptus grandis 生长规律 哑变量 地位指数表

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滇南尾巨桉人工林对不同间伐抚育措施的生长响应及其效益分析 被引量：4

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作者 李光友 陆海飞 +4 位作者 吴玉强 张云东 柏俊 罗亚春 徐建民 《林业科技通讯》 2020年第12期3-13,共11页

本实验旨在揭示不同抚育措施对尾巨桉(Eucalyptus urophylla×E.grandis)人工林生长的影响,为滇南地区尾巨桉人工林的培育提供理论依据。以云南省宁洱市小黑江林区4年生尾巨桉林为研究对象,依立地特征将其划分为Ⅰ、Ⅱ、Ⅲ等3个类型... 本实验旨在揭示不同抚育措施对尾巨桉(Eucalyptus urophylla×E.grandis)人工林生长的影响,为滇南地区尾巨桉人工林的培育提供理论依据。以云南省宁洱市小黑江林区4年生尾巨桉林为研究对象,依立地特征将其划分为Ⅰ、Ⅱ、Ⅲ等3个类型,连续4年对样地进行观测,分别进行每木检尺、树高测量以及林下灌木和草本的统计,通过显著性差异分析、连年增长量分析以及生物多样性指数的比较,评价不同间伐措施的抚育效果。结果表明:在Ⅰ类样地中,间伐处理样地伐后第1年树高和胸径的连年增长量均高于对照YP(树高连年增长量约0.5 m/a,胸径连年增长量约1.28 cm/a),间伐强度为30%样地(BTQ1-30%-1/1、CCD1-30%-1/1和MMH1-30%-1/1等)伐后第1年树高和胸径的连年增长量均高于间伐强度为50%的样地(CCD2-50%-1/1和XSHK-50%-1/1等);同时,经过抚育间伐样地的林下植被多样性指数均高于对照样地,间伐强度为50%样地(MZP2-50%-1/1和BTQ2-50%-3/3)的林下灌木种类在各样地中最多(均达到10种),间伐方式为砍三留三样地比砍一留一样地的植被多样性指数高。在Ⅱ类样地中,间伐强度为50%的情况下,砍三留三样地的树高、胸径连年增长量均高于对照样地和砍一留一样地。在Ⅲ类样地中,仅开展间伐抚育样地的林分伐后第1年胸径连年增长量(0.90 cm/a)同对照样地(0.85 cm/a)并没有较大差别,而间伐抚育+施肥措施结合样地的伐后第1年胸径连年增长量(1.35 cm/a)却明显高于对照。在各立地条件样地中,间伐抚育林地的667 m^2蓄积量和经济总产值均大于对照样地,不同间伐措施样地之间也存在一定的差异;其中,Ⅰ类立地中间伐强度为30%,砍一留一样地的667 m^2产量最高,经济产值也最大;在Ⅱ类立地中,间伐强度为50%,砍三留三样地的产量最高,经济产值也明显高于对照和其他样地。可得出结论,间伐抚育能够提高滇南地区尾巨桉人工林胸径的增长量、667 m^2蓄积量以及经济产值,丰富林下植被多样性。其中,间伐强度为30%更适于Ⅰ类立地,间伐方式为砍三留三更适于Ⅱ类立地(间伐强度为50%的情况下),Ⅲ类立地在间伐的同时应该结合施肥等措施才能有效改善林分的生长。同时,砍三留三的间伐方式比砍一留一的间伐方式更有利于丰富林分的林下植被多样性。此外,样地的立地条件越好,进行间伐抚育所取得的效益一般越高。 展开更多

关键词 尾巨桉 eucalyptus urophylla×E.grandis 抚育间伐 连年增长量 植被多样性

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