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1.
R. S. Yadav B. L. Yadav B. R. Chhipa S. K. Dhyani Munna Ram 《Agroforestry Systems》2011,81(3):195-202
An investigation was carried out in an Entisol at farmers’ field in Jaipur district, Rajasthan, India during 2002–2004 to evaluate the effect of traditionally grown trees
on soil biological characteristics. Traditionally grown trees in farm lands for study consisted of Prosopis cineraria (L.), Dalbergia sissoo (Roxb.) ex DC, Acacia leucophloea (Roxb.) and Acacia nilotica (L.) Del. having a canopy diameter of 8 m. Results revealed significant and substantial improvement in soil biological activity
in terms of microbial biomass C, N and P, dehydrogenase and alkaline phosphatase activity under different tree based agroforestry
systems as compared to a no tree control (cropping alone). Soil microbial biomass C, N and P under agroforestry varied between
262–320, 32.1–42.4 and 11.6–15.6 μg g−1 soil, respectively, with corresponding microbial biomass C, N and P of 186, 23.2 and 8.4 μg g−1 soil under a no tree control. Fluxes of C, N and P through microbial biomass were also significantly higher in P. cineraria based land use system followed by D. sissoo, A. leucophloea and Acacia nilotica in comparison to a no tree control. Thus, it is concluded that agroforestry system at farmers’ field enhance soil biological
activity and amongst trees, P. cineraria based system brought maximum and significant improvement in soil biological activity. 相似文献
2.
At present, our understanding of the dynamics of microbial biomass and soil N in silvopastoral systems is very limited. In
this paper, the effects of understorey management on soil microbial C and N, net N mineralization, and net nitrification were
studied in two seven-year-old radiata pine (Pinus radiata D. Don) – pasture systems, consisting of plots with and without ryegrass (Lolium perenne) as an understorey. Mini-plots (1 × 1 m) with animals excluded and herbage repeatedly clipped and removed were used for soil
sampling. Three mini-plots formed a transect at each of two positions: 0.9 and 3.5 m north of the tree rows. Measurements
were taken from July 1997 to June 1998 about once every 40 days. One composite sample was collected from each of two sampling
depths (0–10 and 10–20 cm) at each transect position on each sampling date. Temporal and spatial variability of N mineralization
rates and microbial biomass C and N was large. Net mineralization and nitrification rates were higher in the bare ground than
in the ryegrass plots for a major part of the year, particularly from late spring to early fall. Net N mineralization and
nitrification rates were higher in the 0–10 than in the 10–20 cm soil layers in both the ryegrass and bare ground treatments;
however, the depth effect on microbial biomass C and N was only significant in the ryegrass treatment. In the surface soil
layer, microbial biomass C and N were substantially greater in the ryegrass than in the bare ground plots. Soil microbial
properties and activities were closely linked to pasture root activities, soil depth, and site biophysical conditions.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
3.
Incorporating cover crops into Christmas tree plantations may potentially improve soil fertility, tree growth and quality
and be an alternative to commercial nitrogen (N) fertilizers. However, cover crops may compete with the trees for water and
other nutrients than N. This study was carried out to assess whether soil fertility, tree survival and growth could be improved
by incorporating leguminous and non-leguminous cover crops into the Fraser fir (Abies fraseri) production system. Dutch white clover (Trifolium pratense), alfalfa (Medicago sativa) and perennial ryegrass (Lolium perenne) were grown in a newly established Fraser fir plantation using two cover crop management practices; no banding (NB) by growing
each cover crop throughout the entire plot and banding (B) by creating a 61 cm-wide bare zone centered on the tree rows. A
conventionally-managed system (CONV) was used as a control. The cover crop aboveground biomass and N content were assessed.
Soil available N (NO3
− and NH4
+) and N mineralization were measured at 0–15, 15–30 and 30–45 cm soil depths. Tree survival, growth, photochemical efficiency
of photosystem II (Fv/Fm), branch water potential (Ψw) and foliar nutrients were also evaluated. Biomass production was as high as 13.9, 10.2 and 5.9 Mg DM ha−1 year−1 for clover, alfalfa and ryegrass, respectively. Cover cropping increased soil available N by 1.5- and 2.2-fold relative the
CONV in the top soil layer in 2007 and 2008, respectively. Tree seedling survival and growth in the B and CONV systems were
similar. In contrast, NB treatments resulted in poor seedling survival and growth relative to the B and CONV plots. Plant
Ψw and Fv/Fm decreased significantly for A. fraseri seedlings on the NB treatments relative to their counterparts on the B and CONV plots. However, cover cropping had marginal
effects on foliar nutrients. Cover cropping with banding can be an efficient strategy for maintaining productivity in Fraser
fir Christmas plantations. 相似文献
4.
Understanding the changes in soil properties in silvopastoral systems is important in regulating the interactions between
tree and understorey pastures. In this study, the effects of understorey management on soil mineral N and moisture availability,
soil temperature, soil C, and tree growth were investigated in a seven-year-old silvopastoral agroforestry experiment in Canterbury,
New Zealand. The systems included understorey treatments of bare ground and ryegrass (Lolium perenne) pasture. Soil mineral N, moisture content, and temperature were monitored from July 1997 to July 1998 in two positions (0.9
and 3.5 m north of tree rows) and two soil depths (0–10 and 10–20 cm). Soil C and N in the 0–10 cm depth were higher in the
ryegrass than in the bare ground plots, reflecting the organic C and N input in the ryegrass plots, as well as greater N loss
from the bare ground plots in the form of nitrate leaching and/or denitrification. Soil C was higher in the position 0.9 m
than 3.5 m away from the tree rows, possibly caused by the greater C input from decomposing fine tree roots and needle litterfall
at the 0.9 m position. Soil moisture availability was greater in the bare ground than in the ryegrass plots in the summer.
No effect of understorey management on soil temperature was found. Soil nitrate levels were lower in the ryegrass plots and
may be limiting when soil moisture supply was adequate. Tree volume growth from winter 1997 to 1998 was significantly greater
in the bare ground treatment, reflecting better soil moisture and N supply conditions.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
5.
In designing agroforestry systems, the combination of tree genotype (orspecies) and pasture species and the spatial arrangement
of trees are importantconsiderations. The spatial variation of fine root length density (FRLD) ofthree radiata pine (Pinus radiata D. Don) genotypes,referred to here as clone 3, clone 4 and seedlings, was studied in athree-year-old temperate silvopastoral
experiment. The genotypes were plantedwith three understorey types: ryegrass (Lolium perenne)mixed with clovers (Trifolium spp), lucerne(Medicago sativa), and control (bare ground). Also fineroot distribution of both tree and pasture species with soil depth and inrelation to
tree row (0.9 m north or south of and within the rippedtree row) was studied. Greater FRLD was found in clonal than in seedling
treesin the bare ground treatment but not in the two pasture treatments, and in the0–0.1 m but not in the 0.1–0.2 or 0.2–0.3m
soil layers. Clonal trees had a greater ability to develop a moreextensive root system, especially in the 0–0.1 m soil layer,but
that advantage disappeared when they were planted with pasture species sincecompetition from the pasture species was most
severe in the 0–10cm layer. The FRLD of lucerne was greater than that ofryegrass/clovers, consistent with the greater aboveground
biomass production oflucerne. Pasture species FRLD was greater on the south (wetter) than on thenorth side of the ripline
or in the ripline. The interception of prevailingsoutherly rain-bearing wind by tree crowns resulted in the south side beingwetter
than the north side. Results indicated that production and distributionof fine roots of both tree and pasture species responded
to changes in themicroclimate. We suggest that to optimize pasture/tree biomass productionplanting trees in the north-south
direction is better than in the east-westdirection at the studied site.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
6.
Dehydrogenase activity and VAM fungi in tree-rhizosphere of agroforestry systems in Indian arid zone
Biological activity in tree rhizosphere and association of VAM fungi with tree-roots could be used as selection criteria for
agroforestry trees in arid ecosystems. Dehydrogenase activity and VAM fungi association in rhizosphere of six agroforestry
trees (Azadirachta indica, Acacia tortilis, Eucalyptus camaldulensis, Prosopis cineraria and Tecomella undulata) were studied under irrigated and rainfed conditions in the arid zone of India. Higher dehydrogenase activity (9.5 to 16.8∼p kat g soil−1), root colonization (58.3 to 68.5%) and spore density (132.5 to 234.7 spores 100 g soil−1) were observed in tree rhizosphere as compared to that in non-rhizosphere (7.4, 37.7 and 44.4). Irrigation had increased
dehydrogenase activity by 22.1% while it reduced root colonization and spore density by 14.2% and 16.2%, respectively. Trees
of A. indica had registered maximum growth while E. camaldulensis the least. Findings suggest that selection of A. nilotica, A. indica, and T. undulata for plantations of agroforestry in arid region would reduce the risk and ensure sustainability of the agroforestry system. 相似文献
7.
We derived an allometric model of the height–diameter curve for even-aged pure stands, which was a modification of the earlier
model proposed by Inoue (2000a). An individual-dependent allometric equation was used as the height–diameter curve. Using
the discriminant analysis method, all trees composed of a stand were stratified into upper and lower trees. It was assumed
that both relationships between mean tree height H
m
and upper tree height H
u
and between mean DBH D
m
and mean DBH of upper trees D
u
could be described by the time-dependent allometric power equations. The height–diameter curve showed an average relationship
between tree height and DBH of a given stand at a given time, and hence it could be assumed that the height–diameter curve
contained two points (D
m
, H
m
) and (D
u
, H
u
). With these assumptions, we derived an allometirc model of height–diameter curve, which allowed the coefficients of the
curve to be estimated from mean tree height and mean DBH. The proposed model was fitted to Japanese cedar (Cryptomeria japonica D. Don) data. The error ratio of the allometric model ranged from 2.254% to 13.412% (mean = 6.785%), which was significantly
smaller than that of the earlier model. When the error of mean tree height was ±1.0 m or less, the effect of the error of
mean tree height on the error ratio was comparatively small. This suggested that the error of ±1.0 m in mean tree height could
be accepted in the estimation of height–diameter curve using the allometric model. These features enable us to combine the
allometric model with Hirata’s vertical angle-count sampling or growth models. In conclusion, the allometric model would be
one of the most practical and convenient approaches for estimating the height–diameter relationship of even-aged pure stands. 相似文献
8.
Seedling growth response of two tropical tree species to nitrogen deposition in southern China 总被引:2,自引:0,他引:2
Seedling growth response of two tropical tree species (Schima superba and Cryptocarya concinna) to simulated N deposition was studied during a period of 11 months. One-year-old seedlings were grown in forest soil treated
with N as NH4NO3 at Control–no N addition, N5–5, N10–10, N15–15, and N30–30 g N m−2 year−1. The objective was to examine the effects of N addition on seedling growth and compare this effect between the two tropical
tree species of different species-N-requirement. Results showed that both species responded significantly to N addition and
exhibited positive effect to lower rate of N addition and negative effect to higher rate of N addition on growth parameters
(height and stem base diameter, biomass production, and net photosynthetic rate). The highest values were observed in the
N10 plots for S. superba and in the N15 plots for C. concinna, but the lowest values were observed in the N30 plots for both species. However, the reduction in the N30 plots was more
pronounced for S. superba than for C. concinna relative to the control plots. Our findings suggest that response of seedling growth of tropical tree species to atmospheric
N deposition may vary depending on rate of N deposition and species-N-requirement. 相似文献
9.
This paper summarizes several studies on N recycling in a tropical silvopastoral system for assessing the ability of the system
to increase soil fertility and insure sustainability. We analyzed the N2 fixation pattern of the woody legume component (Gliricidia sepium), estimated the recycling rate of the fixed N in the soil, and measured N outputs in tree pruning and cut grass (Dichanthium aristatum). With this information, we estimated the N balance of the silvopastoral system at the plot scale. The studies were conducted
in an 11-year-old silvopastoral plot established by planting G. sepium cuttings at 0.3 m × 2 m spacing in natural grassland. The plot was managed as a cut-and-carry system where all the tree pruning
residues (every 2-4 months) and cut grass (every 40-50 days) were removed and animals were excluded. No N fertilizer was applied.
Dinitrogen fixation, as estimated by the 15N natural abundance method, ranged from 60-90% of the total N in aboveground tree biomass depending on season. On average,
76% of the N exports from the plot in tree pruning (194 kg [N] ha–1 yr–1) originated from N2 fixation. Grass production averaged 13 Mg ha–1 yr–1 and N export in cut grass was 195 kg [N] ha–1 yr–1. The total N fixed by G. sepium, as estimated from the tree and grass N exports and the increase in soil N content, was about 555 kg [N] ha–1 yr–1. Carbon sequestration averaged 1.9 Mg [C] ha–1 yr–1 and soil organic N in the 0-0.2 m layer increased at a rate of 166 kg [N] ha–1 yr–1, corresponding to 30% of N2 fixation by the tree. Nitrogen released in nodule turnover (10 kg [N] ha–1 yr–1) and litter decomposition (40 kg [N] ha–1 yr–1) contributed slightly to this increase, and most of the recycled N came from the turnover or the activity of other below-ground
tree biomass than nodules.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
10.
Alley cropping systems may influence soil water movement and the water budget because of its complex interactions between
crop and tree rooting systems. The objective of this paper was to evaluate water balance and water competition in an alley
cropping system, consisting of deciduous tree wild jujube (Choerospondias axillaris) and economic crop peanut (Arachis hypogaea) within subtropical China. Five treatments (20- by 6-m plots) with three replications were included in this study. The treatments
were monoculture peanut cropping (P), monoculture younger trees (T1), monoculture older trees (T2), peanut intercropped with
younger trees (T1P), and peanut intercropped with older trees (T2P). A multi-layered water balance model, with water movement
between soil layers, was implemented by the measurement of soil water potential using sets of tensiometers during the periods
from March 1999 to December 2002. The spatial and temporal variations of soil water regime indicated that the trees used soil
water below the 60-cm soil depth and alleviated the water stress. The direction of soil water movement indicated that soil
water moved to the tree row, which indicated that trees competed with peanuts for water, especially during the seasonal drought
period. Water competition was related to the tree spacing and tree age. Compared to the tree monoculture systems, the alley
cropping system significantly influenced water budget components and water use patterns, as indicated by the increased evapotranspiration
(6–11%), and decreased net drainage (7–45%), water storage (6–29%), and runoff (50–60%). Furthermore, alley cropping systems
encouraged the rapid growth of trees, and depressed the biomass and yield of peanuts by 20–50% associated with tree shading
effects. The results suggest that competition for water and light must be taken into account when optimizing the alley cropping
system. 相似文献
11.
Litterfall and decomposition are the two main processes accounting for soil enrichment in agroforestry. The extent of enrichment
in soil properties depends on the tree species, management practices and the quantity and quality of litter. A field investigation
was carried out to study litterfall production, decay rates, release of nutrients and consequent changes in soil physicochemical
properties under crowns of four multipurpose tree species (MPTs) in irrigated conditions in farm fields. The species were
Prosopis cineraria (L.), Dalbergia sissoo (Roxb.) ex DC, Acacia nilotica (L.) Del. and Acacia leucophloea (Roxb.) Willd. Annual accretion of litter ranged from 36 to 54 kg tree−1 year−1 and was highest under D. sissoo and lowest under A. nilotica. Total litterfall production was in the order: P. cineraria > A. leucophloea > A. nilotica > D. sissoo. P. cineraria showed the highest NPK concentration in litter. For all MPTs, a large pulse of litterfall coincided with the winter season
(November to February). Litter of P. cineraria decomposed fastest while that of A. nilotica was slowest. More than 95% of the leaf litter of P. cineraria decomposed in 6 months, of D. sissoo in 7 months and A. leucophloea and A. nilotica in 9 months. Decomposition rate of litter was highly correlated with neutral detergent fibre (NDF) (r = −0.94) and P (r = −0.91) concentration. N, P and K release were best correlated with NDF, acid detergent fibre (ADF), P, lignin, lignin/N
and C/P ratios and NDF alone explained 88% to 94% of the variability in litter decomposition and nutrient release rates. There
was significant build up of soil organic carbon and available NPK in the agrisilvicultural systems but also a decrease in
soil pH. Build up in soil fertility was significantly correlated with litterfall and soil improvement was greatest under P. cineraria. 相似文献
12.
Xingliang Liu Qinyan Ma Dongsheng Yang Zuoming Shi Yiming Su Shiqiang Zhou Shirong Liu Yupo Yang 《Frontiers of Forestry in China》2006,1(4):379-386
This study investigated root biomass and productivity in dominant populations in western Sichuan, China. A total of 4 plots
(Picea balfouriana plantation for 22 age in Maerkang, 9 trees, mean DBH of population for 10.4 cm and height for 10.5 m; Larix maxteriana plantation for 22 age in Wolong, 9 trees, mean DBH of population for 17.0 cm and height for 13.8 m; Abies fabri plantation for 35 age in Ebian, 18 trees, mean DBH of population for 14.1 cm and height for 11.9 m; Larix kaempferi plantation for 23 age in Miyaluo, 8 trees, mean DBH of population for 17.4 cm and height for 14.5 m; a 20 m×25 m plot located
on each of the 4 types in western Sichuan, China) were randomly selected and excavated to a depth of 60 cm for each of the
4 plantation types. To estimate the root biomass of an individual tree using D
2
H, an exponential model was selected with the highest coefficient ranging from 0.94 to 0.99. The total root biomass per hm2 varied among plantation population types following the order: L. kaempferi (37.832 t/hm2) > A. fabri (24.907 t/hm2) > L. maxteriana (18.320 t/hm2) > P. balfouriana (15.982 t/hm2). The biomass fractions of a given root size class compared to the total root biomass differed among plantation population
types. For all 4 studied plantation types, the majority of the roots were distributed in the top 40 cm of soil, e.g., 97.88%
for P. balfouriana population, 96.78% for L. maxteriana, 95.65% for A. fabri, and 99.72 for L. kaempferi population. The root biomass fractions distributed in the top 20 cm of soil were 77.13% for P. balfouriana, 77.13% for L. maxteriana, 65.02% for A. fabri and 80.66% for L. kaempferi, respectively. The root allocation in the 0–20, 20–40, and 40–60 cm soil layers gave ratios of 34:12:1 for P. balfouriana, 24:6:1 for L. maxteriana, 15:7:1 for A. fabri, and 64:4:1 for L. kaempferi populations. The root biomass density of dominant plantation population was 10.782 t/(hm2·m) for P. balfouriana, 8.230 t/hm2·m) for L. maxteriana, 24.546 t/(hm2·m) for A. fabri, and 13.211 t/(hm2·m) for L. kaempferi population, respectively. The root biomass productivity was found to be 0.57 t/(hm2·year) for P. balfouriana, 0.83 t/(hm2·year) for L. maxteriana, 0.71 t/(hm2·year) for A. fabri and 1.64 t/(hm2·year) for L. kaempferi population, respectively.
__________
Translated from Acta Ecologica Sinica, 2006, 26(2): 542–551 [译自: 生态学报, 2006, 26(2): 542–551] 相似文献
13.
杉木纯林、混交林土壤微生物特性和土壤养分的比较研究 总被引:6,自引:0,他引:6
本文于2005年5月份,在中国科学院会同森林生态实验站选择了一块15年生的杉木纯林和两块15年生杉阔混交林作为研究对象,调查了林地土壤有机碳、全氮、全磷、硝态氮、有效磷和土壤微生物碳、氮、磷、基础呼吸以及呼吸熵,比较了纯林和混交林土壤微生物特性和土壤养分.结果表明,杉阔混交林的土壤有机碳、全氮、全磷硝态氮和有效磷含量高于杉木纯林;在混交林中,土壤微生物学特性得到改善.在0(10 cm和10(20 cm两层土壤中,杉阔混交林土壤微生物氮含量分别比杉木纯林高69%和61%.在0(10 cm土层,杉阔混交林土壤微生物碳、磷和基础呼吸分别比杉木纯林高11%、14%和4%;在10(20 cm土层,分别高6%、3%和3%.但是,杉阔混交林土壤微生物碳:氮比和呼吸熵较杉木纯林低34%和4%.另外,土壤微生物与土壤养分的相关性高于土壤呼吸、微生物碳:氮比和呼吸熵与土壤养分的相关性.由此可知,在针叶纯林中引入阔叶树后,土壤肥力得以改善,并有利于退化森林土壤的恢复. 相似文献
14.
Susan Balaba Tumwebaze Eddie Bevilacqua Russell Briggs Timothy Volk 《Agroforestry Systems》2012,84(1):11-23
The objective of this study was to quantify and compare the amount and distribution of soil organic carbon (SOC) under a linear
simultaneous agroforestry system with different tree species treatments. Field work was conducted at Kifu National Forestry
Resources Research Institute in Mukono District, Central Uganda, in a linear agroforestry system established in 1995 with
four different tree species and a crop only control treatment. Soil samples were collected in 2006 at three depths; 0–25,
25–50, and 50–100 cm, before planting and after harvesting a maize crop. The results indicate that an agroforestry system
has significant potential to increase SOC as compared to the crop only control. There was no significant difference in the
amount of SOC under exotic and indigenous tree species. Among the exotic species, Grevillea robusta had higher SOC than Casuarina equisetifolia across the entire depth sampled. There is significant difference in SOC among the indigenous species, where Maesopsis eminii has more SOC than Markhamia lutea. Distance from the tree row did not significantly influence SOC concentration under any of the tree species. In selecting
a tree species to integrate with crops that will sequester reasonable quantities of carbon as well as boost the performance
of the crops, a farmer can either plant an exotic species or an indigenous. In this study, the soil under Grevillea robusta and Maesopsis eminii have the highest potential to store organic carbon compared to soil under other tree species. 相似文献
15.
Tree-crop interactions were monitored by measuring tree growth characters of Prosopis cineraria L.and Tecomella undulata L.and yields of Vigna radiata(L) in agroforestry systems in degraded lands of Indian Desert.Potential competition for resource between the trees and associated crop was analyzed by measuring soil water contents, soil organic matters and NH4-N at different depths of soil layers i.e., 0-25 cm, 25-50 cm and 50-75 cm in the experimental plots.The plots size were 16 m × 18 m(D1), 20 m × 18 m(D... 相似文献
16.
Soil moisture and water use by pastures and silvopastures in a sub-humid temperate climate in New Zealand 总被引:1,自引:1,他引:0
Soil moisture content from 0 to 2 m depth was monitored under 2–6 year old radiata pine (Pinus radiata) with three understoreys of bare ground, lucerne (Medicago sativa) and ryegrass/clover (Lolium perenne/Trifolium spp.) and under adjacent open-grown lucerne and ryegrass/clover pastures. By the fifth year soil moisture depletion/recharge
pattern under the trees alone was similar to that under open pasture and under trees with pasture understoreys. Maximum plant
available moisture storage was 207–223 mm in the top meter of this Templeton silt loam soil but only 69–104 mm at 1–2 m depth
where coarse textures often predominated. Lucerne reduced soil moisture content (SMC) to lower levels during drier summers
and extracted more water from 1 to 2 m depth than ryegrass/clover. Evapotranspiration (ET) during early summer when soil moisture
was high was close to the Penman potential evapotranspiration (E
p
), but the difference increased when SMC in the top meter dropped below 200 mm. The silvopasture treatments had higher ET
in winter than pasture alone but this was still less than E
p
. Soil moisture deficits (SMD) at the end of each summer were sufficiently large to require slightly higher than normal winter
rainfall and ET < E
p
to recharge the soil to field capacity before the next summer. The soil moisture results, taken together with root and growth
data, suggest that trees and understorey pastures are complementary in the first three or four growing seasons but this balance
subsequently declines in favor of the pine trees. Management options, to extend the period that understorey pastures are productive,
include reducing tree stockings, more vigorous pruning, using competitive understoreys and changing from pines to deciduous
trees. Research on new silvopastoral combinations is suggested. 相似文献
17.
In order to study the effect of tree crop intercropping on a young plantation of Populus tomentosa in the plains along the Yellow River, field experiments were conducted by observing the growth of the plantation, the nutrient
content in leaves, the nutrient and water content in the soil, and the output of crops. The relationship between forest growth
and nutrient content in the tree leaves and the soil were analyzed. Results show that tree crop intercropping in young plantations
can not only improve soil water content, but also enhance the contents of organic matter and the available nitrogen, phosphorus
and potassium in soil resulting in the vigorous growth of the individual trees. Diameter at breast height (DBH) was positively
related to the contents of organic matter in the soil, and the contents of N, P and K in the tree leaves had correlation coefficients
of 0.967, 0.955, 0.988 and 0.972, respectively. Whole tree leaf area, crown width, number of branches and the mean length
of branches in the intercropped plantation (intercropped with watermelon and vegetables, peanut and winter wheat, and soybean)
were, respectively, 1.70–3.0 times, 2.22–2.47 times, 1.0–1.41 times and 1.70–2.32 times of those of CK (without intercropping).
Diameter at breast height (DBH) and tree height in the intercropped plantation were 50.5%–136.7% and 27%–59.5% higher than
those of the CK, respectively. The study also showed that intercropping with watermelon and vegetables proved to have the
highest economic return among the treatments adopted. Tree crop intercropping in young plantations is an effective measure
to increase forest growth and economic benefit.
__________
Translated from Journal of Beijing Forestry University, 2006, 28(3): 81–85 [译自: 北京林业大学学报] 相似文献
18.
Long-term agroforestry demonstrations/trials using Acacia albida and other nitrogen fixing multipurpose trees/shrubs were initiated in mid-1982 to assess soil and crop productivity at a
coastal lowland site characterized by low soil fertility, weed problems and consequent poor crop yields.
Growth performance (height and diameter at breast height, dbh) of Acacia albida under eight densities rotationally intercropped with maize (Zea mays) and green gram (Phaseolus aureus), crop grain yields, soil fertility changes and weed control were assessed for a 5-year period (May 1982 to March 1987).
A parallel-row systematic spacing field layout was used.
Intercropped Acacia albida mean hight and dbh were 140 and 24% respectively higher than tree-only controls by the fifth year. Growth rate was low during
the first year but increased in subsequent years to mean height and dbh of 9 m and 10 cm respectively by March 1987. While
differences in dbh were significant, those between stand heights were not. Crop yields, especially under higher tree densities,
declined considerably due to unexpected shade which also caused significant reductions in weed biomass. Soil fertility levels
remained unchanged during the experimental period relative to the initial status, and differences between the intercropped
Acacia albida plots and the tree — or crop — only control appeared not to be significant. We conclude that an understanding of the mechanism
regulating leaf fall/retention phenomena of Acacia albida is crucial towards determining the intercropping potentials of the species. 相似文献
19.
Aaron H. Joslin Daniel Markewitz Lawrence A. Morris Francisco DeAssis Oliveira Ricardo O. Figueiredo Oswaldo R. Kato 《Agroforestry Systems》2011,81(1):1-14
Throughout the Amazon of Brazil, manioc (Manihot esculenta) is a staple crop produced through slash-and-burn agriculture. Nutrient losses during slash-and-burn can be large and nutrient
demand by food crops so great that fields are often abandoned after two years. In recent decades, farmers have reduced the
fallow phase from 20 to ~5 years, limiting plant nutrient accumulation to sustain crop yields. Improved fallows through simultaneous
planting of trees with food crops may accelerate nutrient re-accumulation. In addition, slash-and-mulch technology may prevent
loss of nutrients due to burning and mulch decomposition may serve as a slow-release source of nutrients. This study in Pará,
Brazil, in a 7-year-old secondary forest following slashing and mulching of the vegetation, involved two main plot treatments
(with and without P and K fertilizers) and two sub-plot treatments (with or without a N2-fixer Inga edulis). A mixed-culture of trees and manioc was planted in all plots. P and K fertilizer increased tree mortality due to weed competition
but growth of surviving trees in four of the five tree species tested also increased as did biomass production of manioc.
In the N2-fixer treatment trends of greater growth and survival of four of five tree species and manioc biomass were also observed.
Fertilization increased the biomass of competing vegetation, but there was a fertilizer by N2-fixer interaction as I. edulis caused a reduction in competing biomass in the fertilized treatment. After one year, fertilization increased decomposition
of the mulch such that Ca, Mg, and N contents within the mulch all decreased. In contrast, P and K contents of mulch increased
in all treatments. No influence of the N2-fixer on 0–10 cm soil N contents was observed. Two years after establishment, this agroforestry system succeeded in growing
a manioc crop and leaving a well-maintained tree fallow after the crop harvest. 相似文献
20.
Tal Ilany Mark S. Ashton Florencia Montagnini Constanza Martinez 《Agroforestry Systems》2010,80(3):399-409
This study assessed the use of agroforestry to improve soil nutrient properties in plantations containing Ilex paraguariensis St. Hilaire (yerba mate). Intercropping within tree plantation systems is widely practiced by farmers around the World, but
the influence of different species combinations on system performance still requires further investigation. I. paraguariensis is a major South American crop commonly cultivated in intensive monocultures on low activity clay soils, which are highly
prone to nutrient deficiencies. Study plots were established in 20 plantations in Misiones, Argentina. These involved two
species combinations (I. paraguariensis monoculture and I. paraguariensis intercropped with the native tree species Araucaria angustifolia) and two age classes (30 and 50 years old). Chemical soil samples were analysed to determine Ca, Mg, K, P, N, C and Al concentrations,
effective CEC (eCEC) and pH at two soil depths (0–5 cm and 5–10 cm). In the younger plantations, the agroforestry sites had
lower nutrient levels than I. paraguariensis monoculture sites. However, the monoculture plantations were more susceptible than agroforestry sites to a decline in soil
nutrient status over time, particularly with respect to Ca, eCEC, N and C for both soil depths. P concentrations were below
detection limits for all sites, potentially reflecting the high P-fixing capacity of the kaolinic soils of this region. While
agroforestry systems may be better at maintaining soil quality over time, significant growth increase of I. paraguariensis was apparent only for the monoculture sites. 相似文献