共查询到20条相似文献,搜索用时 15 毫秒
1.
To study the growth and yield of Acacia mangium in the Caribbean region of Colombia, allometric equations of total volume and aboveground plus coarse roots biomass were
fitted as a function of the tree’s diameter at breast height (dbh). The von Bertalanffy’s growth model and 59, 0.1 ha plots
(0.55–9.55 years old) were used to develop site index (SI) curves at 6 years base age. Then, using the state-space approach,
stand growth and yield models were developed for basal area, volume and biomass. The results show that A. mangium is a very promising species for timber production, atmospheric carbon removal and soil restoration because it grows very
fast even in mining degraded soils. On average sites it reaches 15 m in height in 3 years. However, early and reiterated thinning
coupled with initial mortality by cattle invasion of the very young understocked plantations are producing relatively low
yields. 相似文献
2.
Vindhya Prasad Tewari 《Journal of Sustainable Forestry》2013,32(4):284-300
ABSTRACT Growth modelling is an important and effective tool for evaluating the effects of a particular management action on the future development of a forest ecosystem. However, such necessary growth models are not available for many indigenous tree species in India. Acacia nilotica is an important multipurpose tree species found in India and growth models are required for proper management of the species in the region. This paper presents equations for estimating potential stand density and predicting basal area in pure even-aged stands of A. nilotica in Gujarat State of India. Although no thinning was suggested, decrease in the number of trees in the stands was observed because of mortality due to overcrowding and some biotic factors. Relationships between quadratic mean diameter and stems per hectare were developed, which was used to establish the limiting density line. Eight different stand level models, belonging to the path invariant algebraic difference form of a non-linear growth function, were compared for projecting basal area. They can be used to predict future basal area as a function of stand variables like dominant height and stem number per hectare and are crucial for evaluating different silvicultural treatment options. The performance of the models was evaluated using different statistical criteria to recommend the suitable model for projecting the basal area in A. nilotica stands. 相似文献
3.
A simple step-wise procedure for predicting the course of stand development on log–log coordinates of stand density and quadratic mean diameter was presented based on a distance of measurement from the maximum size–density line of Acacia mangium. This procedure first predicts annual increment of diameter with a multiple linear regression having the distance, site index, and current diameter as independent variables, and then the associated mortality is calculated with the rate of reduction in stand density to the diameter growth derived from a fitted trend with the distance. The cumulative predictions, starting at 3 years after planting until 9 years of age, agreed well with the observations of group-age means of measurements calculated for the three levels of initial density. Contrasting trend of basal area growth between the three levels of initial density and those for their site index: the differences were decreasing in the former while they remained constant in the latter, was clearly illustrated with the procedure indicating a good potential for use in yield prediction. The simulations for stand growth under different spacing and thinning options were demonstrated in a stand density control diagram suggesting reasonable flexibility for practical application. 相似文献
4.
Bin He Wuming Qin Qingbiao Wu Jun Dai Yong Huang Feng Liu 《Frontiers of Forestry in China》2007,2(4):443-447
For this paper, we studied the water-holding capacity of canopy, vegetation layer under canopy and litter layer, the water-holding
capacity and permeability of soil as well as their changes with growth of stands in Acacia mangium plantations of three different age classes (four-, seven-and 11-year-old). Results show that total water-holding above ground
in the order of 11-year stand age (52.86 t/hm2)>seven-year stand age (41.90 t/hm2)>seven-year stand age (25.78 t/hm2), the increment tendency increased with stand age. Similar sequence also obtained on the water-holding capacity and permeation
capacity of soil (0–40 cm). The total water-storage capacity both above ground and soil in four-year-old, seven-year-old and
11-year-old of A. mangium plantations were 2,023.0, 2,158.4 and 2,260.4 t/hm2, respectively, and the all value of water conservation were 1,372.70, 1,474.42 and 1,549.91 yuan (RMB)/hm2, respectively. Therefore, A. mangium plantation had a good ability to modify soil structure and good water conservation function.
__________
Translated from Journal of Soil and Water Conservation, 2006, 20(5): 5–8, 27 [译自: 水土保持学报] 相似文献
5.
Three VA-mycorrhizal fungi; Glomus occultum, Glomus aggregatum (local isolates) and G. mosseae (strain from Bangalore, India) were inoculated to assess their effect on growth of Acacia mangium in lateritic soil. All inoculations enhanced growth with respect to shoot height, root diameter, leaf area, chlorophyll content
and biomass of A. mangium significantly compared to uninoculated control seedlings. G. occultum proved most efficient among the three. The mycorrhizal dependency factor indicated that the growth of A. mangium was 57% dependent on G. occultum, 47% on G. mosseae and 46% on Glomus aggregatum. 相似文献
6.
K. Jusoff 《New Forests》1991,5(1):61-66
A glasshouse study was conducted to observe the initial height and diameter growth of Acacia mangium Willd, seedlings over a period of 24 weeks in pots with soil at bulk densities of 0.8, 1.0, 1.2, 1.4, 1.6, 1.8 and 2.0 g/cm3. Height and diameter growth increased significantly with decreasing soil bulk density. Significant differences in seedling diameter appeared during the tenth to twelfth week after transplanting and continued to increase until harvesting at week 24. The interaction between site water stress and compaction is discussed. A better understanding of these processes and the influence of site/soil factors on them is essential to the development of effective stand manipulation programs. 相似文献
7.
25-years-old Cunninghamia lanceolata forests and 18-years-old Acacia mangium forests in Jianfengling of Hainan Province were surveyed to assess the structures and species diversity of naturally-regenerated plants. The results showed that there were 131 species in C. lanceolata forests, attributed to 100 genera and 51 families. The dominant species were Gironniera subaequalis, Schima superba, Pertusadina metcalfii and Polyspora hainanensis. There were 62 species in A. mangium forests, attributed to 59 genera and 33 families. The dominant species were Acronychia pedunculata, Tetradium glabrifolium, Machilus chinensis, Gironniera subaequalis and Toxicodendron succedaneum. The species richness, Simpson index and Shannon-Wiener index for naturally-regenerated plants in C. lanceolata forests were 76.67±11.02, 0.94±0.04 and 3.50±0.49,while those in A. mangium forests were 39.00±8.54, 0.91±0.04 and 3.05±0.27. The Sørensen species similarity for naturally-regenerated plants of the two forests was 0.50, with a increasing age structure. The mean density, height and dbh for adult trees of naturally-regenerated components of C. lanceolata forests were significantly lower than A. mangium forests; while the mean density and height of small tress of naturally-regenerated components of C. lanceolata forests were significantly higher than A. mangium forests. The study indicated that the naturally-regenerated plant species increased, and the forest structures became complex with the regeneration of both C. lanceolata and A. mangium forests. These two pure plantations will become old-growth natural forests with the forest succession. 相似文献
8.
Céline Leroy Sylvie Sabatier Novi Sari Wahyuni Jean-François Barczi Jean Dauzat Marilyne Laurans Daniel Auclair 《Agroforestry Systems》2009,77(1):37-47
In agroforestry systems, the distribution of light transmitted under tree canopies can be a limiting factor for the development
of intercrops. The light available for intercrops depends on the quantity of light intercepted by tree canopies and, consequently,
on the architecture of the tree species present. The influence of tree architecture on light transmission was analysed using
dynamic 3D architectural models. The architectural analysis of Acacia mangium and Tectona grandis was performed in Indonesian agroforestry systems with trees aged from 1 to 3 years. 3D virtual trees were then generated
with the AmapSim simulation software and 3D virtual experiments in which tree age, planting density, planting pattern and
pruning intensity varied were reconstructed in order to simulate light available for the crop. Canopy closure of trees was
more rapid in A. mangium than in T. grandis agroforestry systems; after 3 years the quantity of light available for A. mangium intercrops was three times lower than under T. grandis. Simulations with A. mangium showed that practices such as pruning and widening tree spacing enable to increase the total transmitted light within the
stand. On T. grandis, modification of the tree row azimuth resulted in changes in the spatial and seasonal distribution of light available for
the intercrops. These results are discussed in terms of agroforestry system management.
相似文献
| Sylvie SabatierEmail: |
9.
A comparison of agrisilvicultural systems with plantation forestry in the Atlantic Lowlands of Costa Rica 总被引:1,自引:0,他引:1
Survival and growth data (ages 0–5 years) are presented for two timber species (Acacia mangium, Cordia alliodora) planted in monocultures or in association with a sequence of agricultural cropsZea mays, Zingiber officinale andEugenia stipitata (a fruit shrub) in the tropical humid Caribbean lowlands of Costa Rica. Average annual height and diameter growth rates were 3.2 m and 4.0 cm (C. alliodora), 3.5 m and 3.8 cm (A. mangium).C. alliodora associated with crops gave the greatest productivity with an average total stem volume increment of 19 m3 ha–1 yr–1. Root rot ofA. mangium (mainlyRosellinia sp.), leading to tree mortality, was greater in pure plots compared to associated plots.A. mangium can not be recommended for similar sites because of this problem. 相似文献
10.
Karen M. Barry Rie Mihara Noel W. Davies Tohru Mitsunaga Caroline L. Mohammed 《Journal of Wood Science》2005,51(6):615-621
The heartwood of Acacia mangium is vulnerable to heart rot and this is the first study to investigate the role of heartwood extractives in its susceptibility.
Acacia auriculiformis was compared with A. mangium because it is rarely associated with heart rot. The heartwood extracts of both species were dominated by three flavonoids
(2,3-trans-3,4′,7,8-tetrahydroxyflavanone, teracacidin, and 4′,7,8,-trihydroxyflavanone), which were purified and identified by nuclear
magnetic resonance spectroscopy. The latter compound has not been previously reported in A. mangium and evidence for melacacidin is also newly reported. The mass spectrometric (MS) behavior of these compounds is given, for
example teracacidin does not form molecular ions by either electrospray ionization or atmospheric-pressure chemical ionization.
The nature of Acacia tannins was compared to quebracho tannin (composed of profisetinidins) using oxidative cleavage to enable MS detection but
a negative reaction was obtained for both, which suggests the Acacia tannins may also be of the 5-deoxy proanthocyanidin type. The concentration of flavanones was less when A. mangium heartwood was decayed but the amount of proanthocyanidins was only slightly reduced and therefore these compounds may be
more resistant to degradation by heart rot fungi. We found that the total phenol content of A. auriculiformis was about fivefold that of A. mangium, and, while preliminary, this provides evidence for a role played by phenolic extractives in heart rot resistance of these
Acacia species. 相似文献
11.
Ferhat Kara 《Journal of Sustainable Forestry》2018,37(4):403-413
Stand density management tools help forest managers and landowners to more effectively allocate growing space so that specific silvicultural objectives can be met. Due to the economic importance of Oriental beech (Fagus orientalis Lipsky) forests in Turkey, a stand density management tool was developed for this species to optimize regeneration success rate and tree growth. For the development of this tool, named stand density management diagram (SDMD), we utilized forest inventory data from the Kastamonu Regional Forest Directorate in Turkey. Previously published forest management approaches and models were employed during the development of the tool. The SDMD illustrates the relation among four forest indexes: the basal area per hectare, number of trees per hectare, forest stand volume per hectare, and quadratic mean diameter of the beech stands. The stand stocking percent (SSP) can be determined based upon any two of these four measurements. The results suggest that SSP is a better predictor of tree growth than BA in Oriental beech forests. The newly developed SDMD allows for a more effective use of the growing space to achieve specific silvicultural objectives including tree regeneration, timber production, thinning planning, and wildlife protection in Oriental beech forests. 相似文献
12.
Increases in stand volume with some currently introduced provenances of Acacia mangium: Papua New Guinea (PNG) and Far North Queensland (FNQ), were projected based on their superiorities in 3-year height growth
in seedling seed orchards using the growth model developed for unthinned plantation for pulp and paper production in South
Sumatra, Indonesia. The height growth of these provenances was better than that of the local selections from Subanjeriji by
10%–15% at 3 years old and these percentage superiorities would be expected to remain at around 9%–14% until the 8-year rotation.
This amount of increase would result in a 7%–10% increase in basal area and hence it would produce a 17%–26% increase in stand
volume at rotation age when compared with the Subanjeriji seed source that was being widely used for the plantation establishment
of A. mangium in Indonesia.
Received: July 24, 2002 / Accepted: December 3, 2002
Acknowledgments The authors thank Mr. Hardjono, the director of plantation establishment at PT Musi Hutan Persada for his permission to use
data of permanent plots for the growth modeling of A. mangium. The authors are grateful to the staff at PT Musi Hutan Persada, Research and Development Center for Biotechnology and Forest
Tree Improvement, Japan International Cooperation Agency for their implementations of the study. Our thanks are also due to
Dr. Yoshida, associate professor at Kyushu University, for his advice on developing the growth modeling work.
Correspondence to:S. Kurinobu 相似文献
13.
[目的]研究不同强度采伐下马尾松的生长动态,筛选适宜的采伐强度,为马尾松人工林近自然经营提供技术支撑。[方法]2007年10月在14年生马尾松人工林(保存密度1 100株·hm~(-2))内进行采伐试验,设置4个采伐强度,即保留密度分别为225、300、375、450株·hm~(-2),以不采伐为对照;其后,自2008年开始连续8 a,每2 a测定1次马尾松的胸径、树高、枝下高和冠面积等生长指标,并计算单株材积和林分蓄积量,应用方差分析和Duncan多重比较分析生长指标对不同采伐强度的动态响应。[结果]表明:采伐强度显著影响林分生长,其中,林分平均胸径、单株材积、冠面积的年均增长量随保留密度增大而减小,但均显著高于对照(P0.05)。采伐后第1 3年,马尾松冠面积增长量显著高于采伐后期,胸径则在采伐后第3 5年最高,而不同采伐强度对林分树高生长影响不明显。保留密度显著影响林分枝下高和蓄积量的动态变化,其年均增长量随密度增大而递增。5个处理间林分蓄积年均增长量的差异随林龄的增大而逐渐缩小。[结论]马尾松人工林生长对不同强度采伐的动态响应以树冠最敏感,冠面积首先陡然增大,进而引起胸径的快速生长。树高和枝下高在采伐后年均增量变化相对平稳。4个采伐强度均显著促进单株材积生长,而仅保留密度为225株·hm~(-2)的采伐对林分蓄积增长量影响显著。综合比较林分的单株材积和林分蓄积连年增长量,建议在桂西南15年生马尾松人工林近自然经营中宜选择300株·hm~(-2)的保留密度进行采伐。 相似文献
14.
Determination of number of stems in coniferous forest stands by means of aerial photo‐interpretation
《Scandinavian Journal of Forest Research》2012,27(1-4):76-84
Two models for determination of the number of stems per hectare in forest stands (N) from attributes derived by aerial photo‐interpretation were developed. The models relied on the assumption that N could be determined by dividing the total stand volume per hectare with the volume of the “average tree”; defined by stand mean height and the diameter corresponding to mean basal area of a stand. Input variables of the models were stand mean height, crown closure and site quality. Additionally, model II required input of average stand volume per hectare and average mean diameter derived from stratified field sample plot inventories. Material for 143 coniferous stands was used for the testing of the models. The stands were recorded by intensive field measurements. Aerial photographs at the approximate scale of 1:15 000 were used for photo‐interpretation. The N value was underestimated in model I by 5.4–47.0%. The standard deviation for the differences was 15.2–26.2% for mature stands and 41.4–44.2% for young thinning phase stands. For model II, the mean difference between the predicted and observed N value was in the range ‐16.1% to 12.2%. 相似文献
15.
以三峡库区无干扰马尾松天然林为研究对象,调查了群落物种组成和天然更新状况,并选择角尺度、混交度和大小比数3个空间结构参数及直径分布等非空间结构参数,对马尾松天然林林分结构特征进行分析,为马尾松次生林的科学经营提供理论依据。研究结果表明:研究地区马尾松群落物种数量丰富,共出现维管束植物117种,林下天然更新状况良好,共有树种24种,数量达5 221株·hm-2,其中高度小于100 cm的幼苗占48.9%。林分随着直径增大,林木株数逐渐减少,呈典型异龄林直径分布特征。林分平均角尺度为0.508,林木整体分布格局属随机分布;林分平均混交度为0.60,整体处于中度以上混交;林分平均大小比数为0.50,大部分林木个体分化程度较高,处于不同竞争地位的林木个体数量基本相等。优势树种马尾松属轻度聚集分布,接近中度混交,且60.2%的个体处于竞争优势或亚优势地位。 相似文献
16.
《Journal of Sustainable Forestry》2013,32(1-2):119-130
Abstract Three species of Acacia which are used in various forestry systems in Micronesia are the Acacia confusa Merr., A. mangium Willd., and A. auriculiformis Cunn. ex Benth. The responses of these species to limited light have not been established. The objective of this study was to determine the growth responses of these three species to light ranging from 19% to 100% sunlight transmission in order to determine the relative tolerance of these species to shade. Several common adaptations to low light occurred with all three species, such as increased leaf surface area in relation to mass of supportive tissue and reduced leaf mass per unit leaf area. However, other adaptations to low light were not evident. Numerous indicators of growth were decreased at low levels of sunlight transmission. The relative reduction in growth at 19% transmission compared with 100% transmission was similar for each species. The results indicate that these Acacia species exhibit some adaptations to development in limited light, but they are not tolerant of shade. All three species are thus classified as shade avoiders, and have limited application under shaded conditions in any Pacific island forestry system. 相似文献
17.
Mohmoud Bayat Timo Pukkala Manouchehr Namiranian Mahmoud Zobeiri 《European Journal of Forest Research》2013,132(5-6):851-864
Hyrcania is a productive region near the southern coast of Caspian Sea. Her forests are mostly uneven-aged beach-dominated hardwood mixtures. There is increasing willingness to treat these forests without clear-felling, following the ideas of continuous cover management. However, lack of growth and yield models have delayed this endeavor, and no instructions for uneven-aged management have been issued so far. This study developed a set of models that enable the simulation of stand development in alternative management schedules. The models were used to optimize stand structure and the way in which various initial stands should be converted to the optimal uneven-aged structure. The model set consists of individual-tree diameter increment model, individual-tree height model, survival model, and a model for ingrowth. The models indicate that the sustainable yield of the forests ranges from 2.2 to 7 m3 ha?1 a?1 in uneven-aged management, depending on species composition. Better ingrowth would substantially enhance productivity. The optimal stand structure for maximum sustained yield has a wide descending diameter distribution, the largest trees of the post-cutting stand being 80–100 cm in dbh. If cuttings are conducted at 30- or 40-year intervals, they should remove 20–40 largest trees per hectare. Despite moderate growth rate, uneven-aged management produces high incomes, 850–1,000 UDS ha?1a?1, because the timber assortments that are obtained from the removed large trees have very high selling prices. Optimal conversion to uneven-aged structure showed that the steady-state stand structure depends on initial stand condition and discount rate when the length of the conversion period is fixed. Discount rates higher than 1 % lead to reduced wood production, heavy cuttings, and low basal areas of the steady-state forest. 相似文献
18.
Possibility of improvement in fundamental properties of wood of acacia hybrids by artificial hybridization 总被引:1,自引:0,他引:1
Nguyen Tu Kim Junji Matsumura Kazuyuki Oda Nguyen Viet Cuong 《Journal of Wood Science》2009,55(1):8-12
Growth, specific gravity, and wood fiber length of Acacia mangium, Acacia auriculiformis, artificial acacia hybrid clones, and combinations, which were planted in a trial forest in Bavi, Vietnam, in July 2001,
were examined. The radial variations from pith to bark were investigated to clarify the effect of genetic factors on these
traits. Superiority of hybrids over their parents ranged from 36.3% to 41.6% for diameter, from 20.0% to 25.3% for height,
from 6.9% to 20.7% for specific gravity, and from 6.1% to 12.8% for wood fiber length. The hybrid possessed heterosis in diameter,
height, specific gravity, and wood fiber length regardless of whether the female parent was A. mangium or A. auriculiformis. The profiles of wood fiber length and specific gravity in the radial direction were similar for all the trees investigated.
Wood fiber length was initially 0.5–0.6 mm near the pith and then increased slowly, finally reaching 1.0–1.2 mm near the bark.
The specific gravity of acacia increased from 0.49–0.58 near the pith to 0.63–0.74 near the bark. From a relative distance
of 30% from the pith, the specific gravity increased slightly and seemed to be stable. The relations among tree diameter,
specific gravity, and wood fiber length were fair and could be represented by positive linear regression formulas. Hybrids
for which A. auriculiformis was the female parent and A. mangium was the male parent had a faster growth rate and longer wood fibers than the inverse hybrids.
Part of this report was presented at the 6th Pacific Regional Wood Anatomy Conference, Kyoto, Japan, December 2005 相似文献
19.
A simultaneous estimation procedure for the parameters of two functions, i.e., the maximum size–density line and the self-thinning
curve, is presented to predict stand development for fast-growing tropical species. This procedure assumes that the rate of
periodic reduction in stand density with increasing quadratic mean diameter on a logarithmic scale (r) will increase inversely proportionally to the distance from the maximum size–density line and consequently equals the slope
of the line at distance 0. Under this assumption, the maximum size–density line can be incorporated into the self-thinning
curve to form an integrated equation with three parameters: k and m, the slope and constant of the maximum size–density line, and a, the rate of reduction of r of the self-thinning curve. These parameters are estimated simultaneously using measurement data on stand density, quadratic
mean diameter, and the corresponding r. This procedure was evaluated by application to two data sets: 186 measurements of Acacia mangium and 95 measurements of Paraserianthes falcataria, for which the parameters k and m have previously been calculated. The parameters estimated using this procedure were in good agreement with previous ones
based on the A. mangium data set, and the differences found for the P. falcataria data set were also small, within the error variances. Therefore, it is concluded that the proposed procedure would give almost
the same estimates from a single calculation step as the previous procedure that required two separate calculation steps. 相似文献
20.
To derive optimal benefits from intercropping timber, farmers should make important initial decisions on tree species and
planting density with a good understanding of their tradeoffs. Complex and data-intensive models used by researchers should
be supplemented with simpler models based on easily measured parameters and easily understood competition functions. In experiments
in the Philippine uplands, growth parameters of three popular farm-forestry species (Eucalyptus deglupta, E. torelliana, and Paraserianthes falcataria) were measured, along with intercropped and non-intercropped yields of maize and vegetables. The commonly used forestry parameter
of stand basal area had a significant negative correlation with intercrop yields (as a percentage of non-intercropped yields).
The slope of the regression line differed between species; in this study, percent yield loss per unit stem basal area growth
was in the order E. deglupta > E. torelliana > P. falcataria. The relationship between stand basal area and intercrop-yield decline was tested on an independent data set from China.
Intercrop yields had significant negative correlations with stand basal area of Paulownia elongata. We propose that adaptive tree-screening trials evaluate competitiveness in addition to evaluating growth and mortality.
Stand basal area may be better suited to this task than more mechanistic indices such as leaf-area index as it is easy to
measure, calculate, and understand, and it may serve as a better index of total (aboveground + belowground) competition. Basal
area is also directly related to tree volume, and allows farmers to more easily evaluate the economic tradeoffs between tree
growth and intercrop-yield declines.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献