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1.
This study tested the hypothesis that incorporation of green leaf manure (GLM) from leguminous trees into agroforestry systems
may provide a substitute for inorganic N fertilisers to enhance crop growth and yield. Temporal and spatial changes in soil
nitrogen availability and use were monitored for various cropping systems in southern Malawi. These included Gliricidia sepium (Jacq.) Walp. trees intercropped with maize (Zea mays L.), with and without pigeonpea (Cajanus cajan L.), sole maize, sole pigeonpea, sole gliricidia and a maize + pigeonpea intercrop. Soil mineral N was determined before
and during the 1997/1998, 1998/1999 and 1999/2000 cropping seasons. Total soil mineral N content (NO3− + NH4+) was greatest in the agroforestry systems (p<0.01). Pre-season soil mineral N content in the 0–20 cm horizon was greater in treatments containing trees (≤85 kg N ha−1) than in those without (<60 kg ha−1; p<0.01); however, soil mineral N content declined rapidly during the cropping season. Uptake of N was substantially greater
in the agroforestry systems (200–270 kg N ha−1) than in the maize + pigeonpea and sole maize treatments (40–95 kg N ha−1; p<001). Accumulation of N by maize was greater in the agroforestry systems than in sole maize and maize + pigeonpea (p<0.01); grain accounted for 55% of N uptake by maize in the agroforestry systems, compared to 41–47% in sole maize and maize + pigeonpea.
The agroforestry systems enhanced soil fertility because mineralisation of the applied GLM increased pre-season soil mineral
N content. However, this could not be fully utilised as soil N declined rapidly at a time when maize was too small to act
as a major sink for N. Methods for reducing losses of mineral N released from GLM are therefore required to enhance N availability
during the later stages of the season when crop requirements are greatest. Soil mineral N levels and maize yields were similar
in the gliricidia + maize and gliricidia + maize + pigeonpea treatments, implying that addition of pigeonpea to the tree-based
system provided no additional improvement in soil fertility. 相似文献
2.
The water dynamics of cropping systems containing mixtures of Gliricidia sepium (Jacq.) Walp trees with maize (Zea mays L.) and/or pigeonpea (Cajanus cajan L.) were examined during three consecutive cropping seasons. The trees were pruned before and during each cropping season, but were left unpruned after harvesting the maize; prunings were returned to the cropping area in all agroforestry systems to provide green leaf manure. The hypothesis was that regular severe pruning of the trees would minimise competition with crops for soil moisture and enhance their growth by providing additional nutrients. Neutron probe measurements were used to determine spatial and temporal changes in soil moisture content during the 1997/98, 1998/99 and 1999/00 cropping seasons for various cropping systems. These included gliricidia intercropped with maize, with and without pigeonpea, a maize + pigeonpea intercrop, sole maize, sole pigeonpea and sole gliricidia. Soil water content was measured to a depth of 150 cm in all treatments at 4–6 week intervals during the main cropping season and less frequently at other times. Competition for water was apparently not a critical factor in determining crop performance as rainfall exceeded potential evaporation during the cropping season in all years. The distribution of water in the soil profile was generally comparable in all cropping systems, implying there was no spatial complementarity in water abstraction by tree and crop roots. However, available soil water content at the beginning of the cropping season was generally lower in the tree-based systems, suggesting that the trees continued to deplete available soil water during the dry season. The results show that, under rainfall conditions typical of southern Malawi, the soil profile contains sufficient stored water during the dry season (ca. 75–125 mm) to support the growth of gliricidia and pigeonpea, and that gliricidia trees pruned before and during the cropping season did not deleteriously compete for water with associated crops. Water use efficiency also appeared to be higher in the tree-based systems than in the sole maize and maize + pigeonpea treatments, subject to the proviso that the calculations were based on changes in soil water content rather than absolute measurements of water uptake by the trees and crops. 相似文献
3.
Competition for light between hedgerows and maize in an alley cropping system in Hawaii, USA 总被引:4,自引:0,他引:4
Successful agroforestry systems depend on minimizing tree-cropcompetition. In this study, field experiments and a simulation
model were usedto distinguish between tree-crop competition for light and belowgroundcompetition in an alley cropping system.
Maize (Zea maysL.) was harvested periodically in three treatments: between vertical barriers ofshade cloth, hedgerows of Flemingia macrophylla (Willd.)Merr., and sole maize. Radiation intercepted by the maize was calculated using asimulation model based on measured
values for direct and diffuse light, hedgerowdimensions and leaf area, and solar trajectory. Radiation use efficiency wascalculated
as biomass production per unit of intercepted radiation. Maizebiomass and yield in both the alley crop and the shade cloth
treatment weregreatest in the center of the alleys. Grain yield between hedgerows was 3.5Mg ha−1 (averaged across the alley), significantlyless than in the shade cloth (7.4 Mg ha−1) or thesole maize (7.7 Mg ha−1) treatments. Lightintercepted by the maize in the alley crop was about half that intercepted bythe maize in the sole crop.
The shade cloth intercepted less light than thehedgerows because it did not have an appreciable width. Radiation use efficiencyin
the three treatments was 0.75 g mol−1 PAR anddid not differ significantly among treatments. Tree-crop competition wasoverwhelmingly for light.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
4.
The poplar based agroforestry system improves aggregation of soil through huge amounts of organic matter in the form of leaf
biomass. The extent of improvement may be affected by the age of the poplar trees and the soil type. The surface and subsurface
soil samples from agroforestry and adjoining non-agroforestry sites with different years of poplar plantation (1, 3 and 6 years)
and varying soil textures (loamy sand and sandy clay) were analyzed for soil organic carbon, its sequestration and aggregate
size distribution. The average soil organic carbon increased from 0.36 in sole crop to 0.66% in agroforestry soils. The increase
was higher in loamy sand than sandy clay. The soil organic carbon increased with increase in tree age. The soils under agroforestry
had 2.9–4.8 Mg ha−1 higher soil organic carbon than in sole crop. The poplar trees could sequester higher soil organic carbon in 0–30 cm profile
during the first year of their plantation (6.07 Mg ha−1 year−1) than the subsequent years (1.95–2.63 Mg ha−1 year−1). The sandy clay could sequester higher carbon (2.85 Mg ha−1 year−1) than in loamy sand (2.32 Mg ha−1 year−1). The mean weight diameter (MWD) of soil aggregates increased by 3.2, 7.3 and 13.3 times in soils with 1, 3 and 6 years plantation,
respectively from that in sole crop. The increase in MWD with agroforestry was higher in loamy sand than sandy clay soil.
The water stable aggregates (WSA >0.25 mm) increased by 14.4, 32.6 and 56.9 times in soils with 1, 3 and 6 years plantation,
respectively, from that in sole crop. The WSA >0.25 mm were 6.02 times higher in loamy sand and 2.2 times in sandy clay than
in sole crop soils. 相似文献
5.
J. V. N. S. Prasad G. R. Korwar K. V. Rao K. Srinivas Ch. Srinivasarao B. Pedababu B. Venkateswarlu S. N. Rao H. D. Kulkarni 《New Forests》2011,42(1):51-61
On-farm experiments were conducted in Khammam district of Andhra Pradesh from 2001 to 2006 to evaluate the biomass productivity,
intercrop yields and profitability of Eucalyptus tereticornis clonal and Leucaena leucocephala variety K-636 based systems. Trees were planted at a spacing of 3 × 2 m and evaluated at three locations. Height growth was
significantly higher in leucaena during the 4 year where as difference in diameter growth was not significant. Biomass partitioning to the bole was high in case of leucaena, ranged from 83% in 2.5–5 cm diameter at breast height (DBH)
trees to 89% in 12.5–15 cm DBH trees and in eucalyptus clones the corresponding values were 71% in 2.5–5 cm DBH trees and
83% in 12.5–15 cm DBH trees. Marketable biomass productivity was higher with leucaena (95 Mg ha−1) in comparison to eucalyptus (87 Mg ha−1). Competition effects of trees on intercrops were observed from the 2 year (2002 post-rainy season). Intercrop yields were
45% of the sole crop in eucalyptus system and 36% in leucaena system during the 2 year. Sole eucalyptus and leucaena plantations
and intercropping systems recorded higher gross and net returns over arable cropping. Therefore, it can be concluded that
leucaena variety K636 and eucalyptus clonal based agroforestry systems are profitable alternatives to arable cropping under
rainfed conditions. 相似文献
6.
Striga
hermonthica (striga) weed is a major threat to crop production in sub-Saharan Africa, and short duration improved fallow species have
recently been found to reduce the effects of this weed because of their ability to replenish soil nitrogen. The objective
of this study was to compare the efficacy and profitability of coppicing improved fallow species (Gliricidia sepium [gliricidia], Leucaena trichandra [leucaena] and Calliandra calothyrsus [calliandra]) and non-coppicing species (Sesbania sesban [sesbania], Mucuna pruriens [mucuna], and Tephrosia vogelii [tephrosia]), in controlling striga. Natural fallow and a sole maize crop were included as control treatments. The fallow
treatments were split into two and either fertilized with N or unfertilized. The results showed that coppicing fallows produced
higher biomass than non-coppicing fallows. For example, Callindra (coppicing fallow species) produced 19.5 and 41.4 Mg ha−1 of leafy and woody biomass, respectively after four cumulative harvests as compared with Sesbania (non-coppicing species),
which produced only 2.3 and 5.9 Mg ha−1 leaf and woody biomass, respectively. Improved fallows reduced striga population in proportion to the amount of leafy biomass
incorporated into the soil (r = 0.87). N application increased cumulative maize yield by between 15–28% in improved fallow
systems and by as much as 51–83% in the control treatments. Added total costs of the coppicing fallows did not differ significantly
from those of the non-coppicing fallows and control treatments. However, the added net benefits of the coppicing fallows were
significantly higher (US$ 527 for +N and 428 for −N subplots; P < 0.01) than those of the non-coppicing fallows (US$ 374 for +N and 278 for −N), and the least for the control treatments.
The most profitable fallow system was Tephrosia with net added benefits of US$ 453.5 ha−1 season−1 without N, and US$ 586.7 ha−1 season−1 with added N. 相似文献
7.
A. Mukuralinda J. S. Tenywa L. Verchot J. Obua N. L. Nabahungu J. N. Chianu 《Agroforestry Systems》2010,80(2):211-221
Green manure of multipurpose trees is known to be a good source of nutrients to crop. However, most agroforestry species do
not have adequate phosphorus (P) in their leaves. Supplementing green manure with moderate dose of P is a beneficial strategy
to improve food security in Rwanda. This study examines the effects of Calliandra
calothyrsus Meissner, Tithonia diversifolia Hensley A.Gray and Tephrosia vogelii Hook.f. green manure applied independently or in combination with triple super phosphate (TSP) and lime on maize yield and
P uptake in the Oxic Tropudalf of Rubona, Rwanda. The treatments were the control, lime at 2.5 t ha−1, TSP at 25 and 50 kg P ha−1, leaf of C. calothyrsus, T. diversifolia, and T. vogelii each at 25 and 50 kg P ha−1, respectively. Leaf shrubs biomass, TSP and lime were applied for four consecutive seasons (2001–2004). The results showed
that the combination of green manure with TSP at a rate of 50 kg P ha−1 significantly increased maize yield from 24 to 508% when compared to the control and T. divesifolia
combined with TSP was leading (508%). Equally, the same treatments as indicated above showed higher P uptake (15.6–18. 6 kg P ha−1) than the control (5 kg P ha−1) and 65% of maize yields variation was explained by total P uptake. The plant residues quality such as C:N ratio, total plant
N, and P significantly influenced the variability of maize grain yields. 相似文献
8.
The potential contribution of agroforestry systems to the management and genetic resources conservation in iroko (Milicia excelsa), an important and valuable timber tree species in sub-Saharan Africa, is addressed in this paper. The structure and dynamics
of traditional agroforestry systems and the ecological structure of Milicia excelsa populations in farmlands were studied through a survey carried out in 100 farmlands covering the natural range of iroko in
Benin. Forty-five species belonging to 24 plant families were recorded in traditional agroforestry systems. Average tree density
varied from 1 to 7 stems ha−1 with diversity index ranging from 2.6 to 2.9. Milicia excelsa occurred sparsely in agroforestry systems in all regions, with density ranging from 1 to 4 stems ha−1; stand basal area varying from 33.10−4 to 129.10−4 m2 ha−1, and negligible seedling regeneration. However, male and female trees were apparently evenly distributed on farmlands in
all regions (F/M > 0). Iroko trees produced viable seeds with moderate germination rate and early growth (germination rate
22% and height 7.29 cm after 3 months). Suggestions are made regarding optimal densities for iroko conservation in farmlands,
according to farmers’ socioeconomic conditions in different regions, in order to improve traditional agroforestry systems
and their use as biological corridors in conservation of Milicia excelsa genetic resources. 相似文献
9.
Greater organic matter inputs in agroforestry systems contribute to the long-term storage of carbon (C) in the soil, and the
use of simulation models provides an opportunity to evaluate the dynamics of the long-term trends of soil organic carbon (SOC)
stocks in these systems. The objective of this study was to apply the Century model to evaluate the long-term effect of agroforestry
alley crop and sole crop land management practices on SOC stocks and soil C fractions. This study also evaluated the accuracy
between measured field data obtained from a 19-year old tropical (TROP) and 13-year old temperate (TMPRT) alley crop and their
respective sole cropping systems and simulated values of SOC. Results showed that upon initiation of the TROP and TMPRT alley
cropping systems, levels of SOC increased steadily over a ~100 year period. However, the sole cropping systems in both tropical
and temperate biomes showed a decline in SOC. The active and passive C fractions increased in the TROP agroforestry system,
however, in the TMPRT agroforestry system the active and slow fractions increased. The input of organic matter in the TROP
and TMPRT agroforestry systems were 83 and 34% greater, respectively, compared to the sole crops, which likely contributed
to the increased SOC stock and the C fractions in the alley crops over the 100 year period. Century accurately evaluated levels
of SOC in the TROP (r
2 = 0.94; RMSE = 226 g m−2) and TMPRT (r
2 = 0.94; RMSE = 261 g m−2) alley crops, and in the TROP (r
2 = 0.82; RMSE = 101 g m−2) and TMPRT (r
2 = 0.83; RMSE = 64 g m−2) sole crops. Century underestimated simulated values in the alley cropping systems compared to measured values due to the
inability of the model to account for changes in soil bulk density with increasing organic matter inputs with tree age from
prunings or litterfall. 相似文献
10.
The importance of agroforestry systems in CO2 mitigation has become recognized worldwide in recent years. However, little is known about carbon (C) sequestered in poplar
intercropping systems. The main objective of this study is to compare the effects of three poplar intercropping designs (configuration
A: 250 trees ha−1; configuration B: 167 trees ha−1 and configuration C: 94 trees ha−1) and two intercropping systems (wheat–corn cropping system and wheat–soybean cropping system) on biomass production and C
stocks in poplar intercropping systems. The experiment was conducted at Suqian Ecological Demonstration Garden of fast-growing
poplar plantations in northwestern Jiangsu. A significant difference in C concentration was observed among the poplar biomass
components investigated (P ≤ 0.05), with the highest value in stemwood and the lowest in fine roots, ranging from 459.9 to 526.7 g kg−1. There was also a significant difference in C concentration among the different crop components (P ≤ 0.05), and the highest concentration was observed in the corn ear. Over the 5-year period, the total poplar biomass increased
with increasing tree density, ranging from 8.77 to 15.12 t ha−1, while annual biomass production among the crops ranged from 4.69 to 16.58 t ha−1 in the three configurations. Overall, total C stock in the poplar intercropping system was affected by configurations and
cropping systems, and configuration A obtained the largest total C stock, reaching 16.7 t C ha−1 for the wheat–soybean cropping system and 18.9 t C ha−1 for the wheat–corn cropping system. Results from this case study suggest that configuration A was a relative optimum poplar
intercropping system both for economic benefits and for C sequestration. 相似文献
11.
Black walnut (Juglans nigra L.) produces both valuable lumber and a nut crop. Because of this, it is an important tree for agroforestry plantings in
the Midwest USA. However, during processing of the nut crop, the outer tissue of the nut (husks) accumulates in great quantities.
Applying this material to pastures is a possible method of disposal. However, black walnut has been implicated in allelopathic
interactions with numerous plant species and may inhibit the growth of pasture species. Greenhouse and field studies and a
chemical analysis of the husks were conducted to determine the effects of applying walnut husks to orchardgrass (Dactylis glomerata L.) or red clover (Trifolium pratense L.) pastures. Applying husks at rates up to 68 Mg ha−1 to pot-grown orchardgrass resulted in root and shoot yields that were greater than in pots receiving no husks. Field studies
indicated that orchardgrass and red clover benefited from the application of husks. For orchardgrass, significant increases
in growth occurred when husks were applied at a rate of 34 Mg ha−1 while red clover responded to rates up to 68 Mg ha−1. A chemical analysis of husks indicated that significant quantities of N and K were present in walnut husks. A whole effluent
toxicity test (WETT) indicates that runoff from walnut husk-treated pastures, at the rates used in this study, would not adversely
affect aquatic organisms. 相似文献
12.
In a false-time series, the temporal development of cocoa–gliricidia carbon (C) stocks and soil organic carbon (SOC) were
investigated in Napu and Palolo Valleys of Central Sulawesi, Indonesia. As a first step, the Functional Branch Analysis (FBA)
method was used to develop allometric equations for the above- and below-ground growth of cocoa and gliricidia. FBA resulted
in shoot–root ratios of 2.54 and 2.05 for cocoa and gliricidia, respectively. In Napu and Palolo, the trunk diameter and carbon
levels per gliricidia tree were always much greater than that of cocoa. The highest aerial carbon levels were attained at
year four in Napu (aerial cocoa–gliricidia = 20,745.2 kg C ha−1) and at year five in Palolo (aerial cocoa–gliricidia = 38,857.0 kg C ha−1). After years four or five, however, the reduced stocking density of gliricidia attributed to a loss of aerial C. During
the time spans in question, SOC remained fairly stable though slightly decreasing in Napu and slightly increasing in Palolo.
The SOC harbored a vastly greater amount of system C (one-half and one-third of SOC in the 0–15 cm stratum in Napu and Palolo,
respectively) relative to tree components. Eight years (Napu) or 15 years (Palolo) after conversion of a rainforest to cocoa–gliricidia
agroforestry caused an 88% and 87% reduction of aerial C-stocks in Napu and Palolo, respectively. 相似文献
13.
This long term experiment provides production data for evaluation of combined forestry and livestock systems. Five systems
were established in Pinus radiata planted in 1981 (620 mm average annual rainfall). Sheep were introduced in 1984 and trees were pruned in several lifts. Adjusted
tree stockings were (1) 60 widely spaced trees ha−1, (2) 200 widely spaced trees ha−1, (3) 200 trees ha−1 in five-row belts, (4) 1,090 trees ha−1 (unpruned) and 815 trees ha−1, and (5) no trees (open pasture). Tree growth, wool production, liveweight gain and pasture production were measured. At
year 25, tree diameter under bark at 1.3 m (DBHUB) in Systems 1, 2, 3 and 4 (unpruned) was 46.0, 39.2, 33.5 and 24.1 cm, while
volume of bark-free 6-m butt-logs was 49, 117, 86 and 233 m3 ha−1. Inner rows of System 3 belts contained smaller trees than outer rows. Pruned System 4 trees had slightly greater diameter
than unpruned trees. Pasture production declined with tree stocking and time, due to shading and competition. Wool production
(WP ha−1) and liveweight gain (LWG ha−1) declined linearly from year 9 to 17 with increasing disparity among systems. In 1998 (year 17) WP ha−1 in Systems 1, 2 and 3 was 64, 16 and 43% of that in open pasture. Further analysis is needed to evaluate the financial costs
and returns of various systems under particular rotation lengths and market prices. 相似文献
14.
Agroforestry systems based on poplar (Populus deltoides) are becoming popular in eastern and northern parts of India. Therefore studies on the structure and function of the systems
are important. The investigations included allometric equations for above- and belowground tree components, crop and plantation
floor biomass and litter fall estimation at Pusa, Bihar, India. Biomass, floor litter mass, litter fall and net primary productivity
(NPP) of plantations increased with an increase in age of trees whereas, crop biomass for any specific crop interplanted with
poplar decreased with the age of the plantation. The total plantation biomass increased from 12.08 to 90.59 Mg ha−1 and NPP varied from 5.69 to 27.9 Mg ha−1 year−1. The biomass accumulation ratio ranged from 2.1 to 3.2. Total annual litter fall was in between 1.95 and 10.00 Mg ha−1 year−1, of which 92–94% was contributed by leaf litter. Compartmental models were developed for dry matter distribution in agroforestry
systems involving young (3-year-old) and mature (9-year-old) poplar trees interplanted with various crops, the crops being
grown in two rotations maize (Zea mays) – wheat (Triticum aestivum) – turmeric (Curcuma domestica) and pigeonpea (Cajanus cajan) – turmeric. This study substantiates the potential of Populus deltoides G3 under agroforestry combinations. 相似文献
15.
The conversion of forests to agroecosystems or agroforests comes with many changes in biological and chemical processes. Agroforestry,
a tree based agroecosystem, has shown promise with respect to enhanced system nutrient accumulation after land conversion
as compared to sole cropping systems. Previous research on tropical agroforestry systems has revealed increases in soil organic
matter and total organic nitrogen in the short term. However, research is lacking on long-term system level sustainability
of nutrient cycles and storage, specifically in traditional multi-strata agroforestry systems, as data on both the scope and
duration of nutrient instability are inconclusive and often conflicting. This study, conducted in Ghana, West Africa, focused
on carbon and nitrogen dynamics in a twenty-five year chronosequence of cacao (Theobroma cacao Linn.) plantations. Three treatments were selected as on-farm research sites: 2, 15 and 25-year-old plantations. Soil carbon
(C, to a depth of 15 cm) varied between treatments (2 years: 22.6 Mg C ha−1; 15 years: 17.6 Mg C ha−1; 25 years: 18.2 Mg C ha−1) with a significant difference between the 2- and 15- and the 2- and 25-year-old treatments (p < 0.05). Total soil nitrogen in the top 15 cm varied between 1.09 and 1.25 Mg N ha−1 but no significant differences were noted between treatments. Soil nitrification rates and litter fall increased significantly
with treatment age. However, photosynthetically active radiation (PAR) and soil temperature showed a significant decrease
with age. No difference was found between decay rates of litter at each treatment age. By 25 years, system carbon sequestration
rates were 3 Mg C ha−1 y−1, although results suggest that even by 15 years, system-level attributes were progressing towards those of a natural system. 相似文献
16.
The widespread planting of Sesbania sesban fallows for replenishing soil fertility in eastern Zambia has the potential of causing pest outbreaks in the future. The
pure S. sesban fallows may not produce enough biomass needed for replenishing soil fertility in degraded soils. Therefore, an experiment
was conducted at Kagoro in Katete district in the Eastern Province of Zambia from 1997 to 2002 to test whether multi-species
fallows, combining non-coppicing with coppicing tree species, are better than mono-species fallows of either species for soil
improvement and increasing subsequent maize yields. Mono-species fallows of S. sesban (non-coppicing), Gliricidia sepium, Leucaena leucocephala and Acacia angustissima (all three coppicing), and mixed fallows of G. sepium + S. sesban, L. leucocephala + S. sesban, A. angustissima + S. sesban and natural fallow were compared over a three-year period. Two maize (Zea mays) crops were grown subsequent to the fallows. The results established that S. sesban is poorly adapted and G. sepiumis superior to other species for degraded soils. At the end of three years, sole G. sepium fallow produced the greatest total biomass of 22.1 Mg ha−1 and added 27 kg ha−1 more N to soil than G. sepium + S. sesban mixture. During the first post-fallow year, the mixed fallow at 3.8 Mg ha−1 produced 77% more coppice biomass than sole G. sepium, whereas in the second year both sole G. sepium and the mixture produced similar amounts of biomass (1.6 to 1.8 Mg ha−1). The G. sepium + S. sesban mixture increased water infiltration rate more than sole G. sepium, but both these systems had similar effects in reducing soil resistance to penetration compared with continuous maize without
fertilizer. Although sole G. sepium produced high biomass, it was G. sepium + S. sesban mixed fallow which resulted in 33% greater maize yield in the first post-fallow maize. However, both these G. sepium-based fallows had similar effects on the second post-fallow maize. Thus the results are not conclusive on the beneficial
effects of G. sepium + S. sesban mixture over sole G. sepium.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
17.
A considerable amount of data is available about above-ground biomass production and turnover in tropical agroforestry systems, but quantitative information concerning root turnover is lacking. Above- and below-ground biomass dynamics were studied during one year in an alley cropping system withGliricidia sepium and a sole cropping system, on aPlinthic Lixisol in the semi-deciduous rainforest zone of the Côte d'Ivoire. Field crops were maize and groundnut. Live root mass was higher in agroforestry than in sole cropping during most of the study period. This was partly due to increased crop and weed root development and partly to the presence of the hedgerow roots. Fine root production was higher in the alleys and lower under the hedgerows compared to the sole cropping plots. Considering the whole plot area, root production in agroforestry and sole cropping systems was approximatly similar with 1000–1100 kg ha–1 (dry matter with 45% C) in 0–50 cm depth; about 55% of this root production occured in the top 10 cm. Potential sources of error of the calculation method are discussed on the basis of the compartment flow model. Above-ground biomass production was 11.1 Mg ha–1 in sole cropping and 13.6 Mg ha–1 in alley cropping, of which 4.3 Mg ha–1 were hedgerow prunings. The input of hedgerow root biomass into the soil was limited by the low root mass ofGliricidia as compared to other tree species, and by the decrease of live root mass of hedgerows and associated perennial weeds during the cropping season, presumably as a result of frequent shoot pruning. 相似文献
18.
E. Y. Raddad O. Luukkanen A. A. Salih V. Kaarakka M. A. Elfadl 《Agroforestry Systems》2006,68(3):193-207
Acacia senegal, the gum arabic-producing tree, is the most important component of traditional dryland agroforestry systems in the␣Sudan. The spatial arrangement of trees and the type of agricultural crop used influence the interaction between trees and crops. Tree and crop growth, gum and crop yields and nutrient cycling were investigated over a period of 4 years. Trees were grown at 5 × 5 m and 10 × 10 m spacing alone or in mixtures with sorghum or sesame. No statistically significant differences in sorghum or sesame yields between the intercropping and control treatments were observed (mean values were 1.54 and 1.54 t ha−1 for sorghum grain and 0.36 and 0.42 t ha−1 for sesame seed in the mixed and mono-crop plots, respectively). At an early stage of agroforestry system management, A. senegal had no detrimental effect on crop yield; however, the pattern of resource capture by trees and crops may change as the system matures. A significant positive relationship existed between the second gum picking and the total gum yield. The second gum picking seems to be a decisive factor in gum production and could be used as an indicator for the prediction of the total gum yield. Soil organic carbon, N, P and K contents were not increased by agroforestry as compared to the initial levels. Soil OC was not increased by agroforestry as compared to sole cropping. There was no evidence that P increased in the topsoil as the agroforestry plantations aged. At a stocking density of 400 trees ha−1 (5 × 5 m spacing), A. senegal accumulated in its biomass a total of 18.0, 1.21, 7.8 and 972 kg ha−1 of N, P, K and OC, respectively. Agroforestry contributed ca. 217 and 1500 kg ha−1 of K and OC, respectively, to the top 25-cm of soil during the first four years of intercropping. 相似文献
19.
Crop and livestock production in the Guinea savanna zone of northern Ghana has been declining over the past years as a result
of increasing pressure on land. To sustain soil productivity, pigeon pea(Cajanus cajan), a leguminous perennial crop was evaluated for its potential as a short duration fallow crop for fodder and grain, and maize
(Zea mays)production. It involved comparing a natural fallow (i.e., control) and four improved fallows of pigeon pea pruned annually
at 30 cm, 60 cm and 90 cm from the ground, and unpruned pigeon pea over a two-year period. After this time, the land was cleared
manually and planted to maize. The highest mean annual biomass of pigeon pea over the two-year period of 6.1 t ha−1 dry matter (DM) was obtained by pruning at 60 cm. The highest leaf litter production and pigeon pea seed yield was obtained
from the no pruning treatment. The mean maize grain yield from the improved fallow (3.02 t ha−1) in the first year after clearing was significantly (P < 0.05) greater than that of the natural fallow (1.54 t ha−1). Considering the biomass of pigeon pea from pruning, pigeon pea seed yield and maize grain yield after the pigeon pea, pruning
pigeon pea at 60 cm is the most promising regime for crop-livestock production systems.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
20.
D. N. Mugendi P. K. R. Nair J. N. Mugwe M. K. O'Neill M. J. Swift P. Woomer 《Agroforestry Systems》1999,46(1):51-64
A major challenge in developing agroforestry approaches that utilize tree-leaf biomass for provision of N to crops is to ensure
synchrony between the N released from decomposing prunings and N demand by crops. A study was conducted in the subhumid highlands
of Kenya to assess the rate of decomposition and mineralization of soil-incorporated Calliandra calothyrsus Meissner (calliandra)
and Leucaena leucocephala (Lam.) de Wit (leucaena) tree biomass and maize roots (Zea mays L.) both in an alley cropping and
a sole cropping system. The amount of mineralized N peaked four weeks after planting (WAP) maize in all the treatments during
both seasons of 1995. Cumulative mineralized N at week 20 ranged from 114 to 364 kg N ha−1 season−1, the absolute control treatment giving the lowest and the prunings-incorporated treatments giving the highest amounts in
the two seasons. Total N uptake by maize, ranging from 42 to 157 kg ha−1 season−1, was lowest in the 'alley-cropped, prunings-removed' treatments, and highest in the 'non alley-cropped-prunings-incorporated'
treatments. The apparent N recovery rate by maize was highest in the fertilizer applied treatments in the two seasons. Decomposition
rate constants (kD) ranged from 0.07 to 0.21 week−1, and the rates among the different plant residues were as follows: leucaena < calliandra < maize roots. Nitrogen release
rate constants (kN), ranging from 0.04 to 0.25 week−1, followed a similar pattern as the rate of decomposition with leucaena releasing the highest amount of N followed by calliandra
and lastly by maize roots.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献