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1.
Tithonia diversifolia as a green manure for soil fertility improvement in western Kenya: A review 总被引:1,自引:0,他引:1
B. Jama C. A. Palm R. J. Buresh A. Niang C. Gachengo G. Nziguheba B. Amadalo 《Agroforestry Systems》2000,49(2):201-221
Tithonia diversifolia, a shrub in the family Asteraceae, is widely distributed along farm boundaries in the humid and subhumid tropics of Africa. Green biomass of tithonia has been recognized as an effective source of nutrients for lowland rice (Oryza sativa) in Asia and more recently for maize (Zea mays) and vegetables in eastern and southern Africa. This paper reviews the potential of tithonia green biomass for soil fertility improvement based on recent research in western Kenya. Green leaf biomass of tithonia is high in nutrients, averaging about 3.5% N, 0.37% P and 4.1% K on a dry matter basis. Boundary hedges of sole tithonia can produce about 1 kg biomass (tender stems + leaves) m–1 yr–1 on a dry weight basis. Tithonia biomass decomposes rapidly after application to soil, and incorporated biomass can be an effective source of N, P and K for crops. In some cases, maize yields were even higher with incorporation of tithonia biomass than with commercial mineral fertilizer at equivalent rates of N, P and K. In addition to providing nutrients, tithonia incorporated at 5 t dry matter ha–1 can reduce P sorption and increase soil microbial biomass. Because of high labor requirements for cutting and carrying the biomass to fields, the use of tithonia biomass as a nutrient source is more profitable with high-value crops such as vegetables than with relatively low-valued maize. The transfer of tithonia biomass to fields constitutes the redistribution of nutrients within the landscape rather than a net input of nutrients. External inputs of nutrients would eventually be required to sustain production of tithonia when biomass is continually cut and transferred to agricultural land.This revised version was published online in November 2005 with corrections to the Cover Date. 相似文献
2.
M. Jensen 《Agroforestry Systems》1993,24(2):187-201
In a 0.13 ha homegarden in West Java, Indonesia, a 16-week study of production, nutrient in- and outputs as well as internal circulation was carried out in 1989. Total annual agricultural production was 11.4 t ha–1, of which 6.8 t ha–1 were timber and firewood. Two thirds of the production was sold, the rest consumed by the owners. The productivity is more than twice the productivity of ricefields in the area, but can be raised further. Nutrient inputs in rainfall, streamwater and via N-fixation were estimated to a total of: 33 kg N, 7 kg P, 115 kg K, 79 kg Ca and 55 kg Mg ha–1 yr–1. Outputs in streamwater, harvest sold and erosion were estimated at: 42 kg N, 11 kg P, 151 kg K, 278 kg Ca and 83 kg Mg. Litterfall and pruning returned 10.0 and 7.5 t dry matter, respectively, per hectare to the soil annually. Throughfall was on average 92% of incident rainfall. Total amounts of nutrients circulated internally in the homegarden each year were estimated at: 223 kg N, 38 kg P, 373 kg K, 135 kg Ca and 50 kg Mg per hectare. This corresponded to 22, 44, 50, 20 and 30% of nutrients stored in the plant biomass, respectively. The balance is negative for all elements, the magnitude depending on whether the part of harvest consumed by the family itself is regarded as internal circulation or as an output. Compared to available soil reserves the system is likely to be sustainable for many years ahead, but may be vulnerable because of the high fraction of plant nutrient storage cycled annually. 相似文献
3.
T. S. George P. J. Gregory J. S. Robinson R. J. Buresh B. A. Jama 《Agroforestry Systems》2001,52(3):199-205
Green leaf biomass of Tithonia diversifolia is high in nutrients and recognised as a potential source of nutrients for crops. We conducted a field survey in western Kenya to determine the variation in leaf nutrient concentrations in tithonia grown in naturalised hedges and agricultural fields, and to examine whether leaf nutrient concentrations were related to soil nutrient status. Leaf P and K concentrations were higher in naturalised hedges (3.2 g P kg–1 and 35 g K kg–1) than in unfertilised fields (2.2 g P kg–1 and 23 g K kg–1). The critical level of 2.5 g P kg–1 for net P mineralisation was exceeded by > 90% of the leaves from hedges, but by only 14% from unfertilised fields. Leaf P and K concentration increased linearly with increasing natural logarithm of anion resin extractable soil P and exchangeable soil K, respectively. However, at the same levels of soil available P and K, field-grown tithonia consistently produced lower leaf P and K concentrations than that grown in hedges. This study indicates that biomass from tithonia planted on nutrient-depleted soils would be a less effective source of P and K, via biomass transfer, than tithonia from naturalised hedges.This revised version was published online in November 2005 with corrections to the Cover Date. 相似文献
4.
Fine root dynamics of shaded cacao plantations in Costa Rica 总被引:1,自引:0,他引:1
Root turnover may contribute a significant proportion of recycled nutrients in agroforestry systems and competition between trees and crops for nutrients and water may depend on temporal fine root regrowth patterns. Fine root biomass ( 2 mm) and fine root productivity were measured during one year in plantations of cacao (Theobroma cacao) shaded by Erythrina poeppigiana or Cordia alliodora planted on a deep alluvial soil in Turrialba, Costa Rica. Fine root biomass of approximately 1.0 Mg ha–1 varied little during the year with maximum values at the beginning of the rainy season of 1.85 Mg ha–1 in the cacao-C. alliodora system compared to 1.20 Mg ha–1 for cacao-E. poeppigiana. Fine root productivity of C. alliodora and E. poeppigiana (maximum of 205 and 120 kg ha–1 4 week–1, respectively) was greatest at the end of the rainy season, while for cacao it was greatest at the beginning of the rainy season (34–68 kg ha–1 4 week–1), which suggests that if nutrient competition occurs between the shade trees and the cacao, it could be minimized by early fertilization during the beginning of the rains immediately after pruning the shade trees. Annual fine root turnover was close to 1.0 in both systems. Assuming that fine root biomass in these mature plantations was constant on an annual basis, nutrient inputs from fine root turnover were estimated as 23–24 (N), 2 (P), 14–16 (K), 7–11 (Ca) and 3–10 (Mg) kg ha–1 year–1, representing 6–13% and 3–6% of total nutrient input in organic matter in the C. alliodora and E. poeppigiana systems, respectively. 相似文献
5.
Production of quality seedlings is an important aspect of successful tree planting. No information is available on the effect of nutrients and water on the growth and development of the seedlings of neem (Azadirachta indica A. Juss), an important component of many tropical agroforestry systems. In an experiment in central India, the growth and nutrient-use efficiency of neem seedlings grown at various levels of light, nutrients (N and P), and water stress were determined. Seedlings were given light (diffused and complete) and nutrient (N and P) treatments comprising either high N-high P, high N-low P, low N-high P, or low N-low P. Seedlings grown in complete light (800 mol/m2/s) had four times more biomass than those grown in diffused light (200 mol/m2/s). Significant increase in seedling biomass was observed with nitrogen application, while phosphorus had no effect on biomass. Leaves contributed maximum biomass, followed by roots and stem. Nutrient use efficiency decreased with an increase in the supply of nutrients. In another experiment, containerized and bare-root seedlings were subjected to five watering treatments, viz., watering twice a week, watering weekly, watering every alternate week, watering every third week, and natural precipitation. Plant moisture stress affected both growth and survival of neem seedlings. Only 50 per cent of seedlings survived in severe drought treatment (no. 4) whereas 90 to 95 per cent seedlings showed growth in all other treatments. Plant moisture stress in severe drought treatment averaged –21 bar while in other treatments it ranged from –9 to –12 bar. Shoot-root ratio was high in bare-root seedlings as compared to containerized seedlings. Containerized seedlings had shown better endurance against drought than the bare-root seedlings. The results suggest that neem seedlings adjust their nutrient use efficiency and can be grown even under limited available resources. It is also inferred that the species can tolerate soil resource depletion caused by competitor species.This revised version was published online in November 2005 with corrections to the Cover Date. 相似文献
6.
Fertilizing plantations of fast-growing tree crops, in manners which supply nutrients at rates that match plant demand and
maintain stable internal plant nutrient ratios, can maximize biomass production and carbon sequestration while reducing fertilizer
wastage and pollution. Our objectives were to determine nutrient ratios of common hybrid poplar (Populus trichocarpa Torr. and Gray × Populus deltoides Marsh.) (T × D) clones under steady-state nutrition, and to determine if incremental additions of fertilizer were more successful
than conventional (evenly-split) fertilizer additions in maximizing biomass production and inducing stable nutrient ratios.
Un-rooted cuttings of three T × D clones (49–177, DTAC-7, 15–29) were grown under a conventional regime and a modified-exponential
fertilization regime at three application rates (1.8, 3.7 or 7.4 g N plant−1). Above- and below-ground biomass and nutrient concentrations were measured after one growing season. There were few differences
in total plant biomass between conventional and modified-exponential fertilization regimes, but for one clone, biomass accumulation
equivalent to the highest rate under the conventional regime was achieved with the medium rate of the modified-exponential
regime. Stable nutrient ratios (at conditions consistent with steady-state nutrition) were: 100N:14P:50K (49–177), 100N:13P:49K
(DTAC-7) and 100N:12P:60K (15–29). 相似文献
7.
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
8.
Xiaojuan Zhang Tianxing Wei Libo Jing Na Yin Yanhui Liu 《Frontiers of Forestry in China》2009,4(2):159-164
We studied the biomass and its allocation in natural secondary forests, as well as the amounts, accumulation and distribution
of nutrient elements (N, P, K, Ca and Mg) in sample plots established in the Loess Plateau in Shanxi Province, northern China.
The results show that biomass in natural secondary forests amounted to 36.09 t/hm2, of which the tree layer accounted for 46%, the shrub layer for 29%, the herb layer for 13% and the litter layer for 12%.
The total storage of the five nutrient elements is 1089.82 kg/hm2. Nutrient storage in the tree layer is the largest, at 41%. The sequence of storage of the elements varied among different
layers and is given as follows: shrub layer 31.27%, herb layer 12.55% and litter layer 15.36%. The accumulation of nutrient
elements in the tree layer, ordered from high to low, is: branches > roots > stems >bark > leaves. The total storage of the
five nutrient elements in the soil is 634.97 t/hm2, where the accumulation of the nutrients accounts for 95.32% (N), 99.64% (P), 99.91% (K), 99.84% (Ca) and 99.95% (Mg) of
the total amounts. The accumulation coefficients of different organs in the tree layer are, from high to low: leaves > branches
> roots > bark > stems. The accumulation coefficients in the different layers are listed as follows: shrub layer > tree layer
> herb layer and for the elements as: N > P > Ca > K > Mg.
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Translated from Journal of Beijing Forestry University, 2008, 30(3): 57–62 [译自: 北京林业大学学报] 相似文献
9.
Roots can be an important though poorly quantified source of nitrogen (N) in agroforestry systems. Nitrogen uptake of maize using P. falcataria below- and aboveground biomass separately, and their combination, as source of N, was assessed in a controlled experiment using 15N isotope labeling techniques. The 15N-direct and the 15N-indirect labeling techniques were compared for discrepancies in measuring N cycling from P. falcataria tree residues. N contribution to maize production was as follows; 40–57% from below ground biomass and 10–18% from above ground biomass (P < 0.05). Residue N use efficiency (%rNE) by maize was between 99 and 106% for belowground biomass, 4–4.5% for aboveground biomass. This implies that though nutrient release characteristics of aboveground biomass are commonly used as a basis for selection of agroforestry trees, those of belowground biomass would be of fundamental importance as well. Combining P. falcataria below and aboveground biomass did not result in significant (P < 0.05) effects on N recovered by maize, suggesting the absence of decomposition interactions between the two bio-chemically contrasting residues. There were no significant methodological differences reflected in measured N cycled by maize from leaves (Ndfr); 15% and 18% as estimated by 15N direct and indirect method, respectively. The two methods compared very well (P < 0.05) as tools of estimating N cycling from surface applied leaves. However, the ability of the direct method to measure N without disturbing either the tree or the soil, would make it a more attractive and valuable tool in N cycling studies in agroforestry systems.This revised version was published online in November 2005 with corrections to the Cover Date. 相似文献
10.
When spring frosts occur on recently planted forest sites, severe damage may occur to the seedlings. The aim of the present study was to test how different low levels of nutrient concentrations in Norway spruce (Picea abies (L.) Karst.) seedlings affected spring frost hardiness and time of bud break. Seedlings were grown in a greenhouse for one season and supplied with fertiliser containing 22, 43 and 72 mg N l–1, respectively. The treatments resulted in needle nitrogen concentrations ranging from 0.9 to 1.8% in autumn. After winter storage at 0 °C, bud break was recorded on seedlings growing in the greenhouse, outdoors and in growth chambers at 12 °C and at 17 °C. Freezing tests were performed on seedlings directly removed from winter storage and following one week growth in the greenhouse. Seedlings receiving fertiliser with 43 mg N l–1 had less freezing injury than the two other fertilisation treatments in the present study. The earliest bud break occurred in seedlings receiving 72 mg N l–1. 相似文献
11.
Leaching of nitrogen (N) and phosphorus (P) through container peatmedium and N and P uptake by seedlings were determined in commercial productionof birch grown with three different types of fertilization. Half of the amountof nutrients was premixed into the peat medium and the other half was appliedasliquid (=fertigated) in the treatment (PF) commonly used in Finland. In twoother treatments all nutrients, either totally (P-VN) or partly (P-N) inslow-release form, were premixed into the peat. Independently of the treatment,the largest proportion (60 to 80%) of total N leached during May and June.During two growing seasons, the amounts of N leached from PF treatments (9 to36kg ha–1) were as large as the amounts of Nleachedfrom P-VN and P-N treatments (24 to 46 kg ha–1).Due to fertigations between container trays, however, the total N load perhectare was greatest in the PF treatments. In the soil water 0.5meter beneaththe container area, the N concentration varied from 10 to 60 mgl–1. The morphological and chemical properties of theseedlings did not differ greatly between treatments. 相似文献
12.
We studied the nutrient cycle of a planted forest of Pinus tabulaeformis in the Miyun Reservoir Watershed, Beijing. Results show that the total biomass of P. tabulaeformis stands at age 29 in the experimental area is 92627 kg/hm2, and the total nutrient store is 695.17 kg/hm2 including nitrogen (N), phosphorus (P), kalium (K), calium (Ca) and magnesium (Mg). The sequence of their contents in different
organs was given as follows: needle>branch> trunk>root. The annual amount of 85.37 kg/hm2 of five nutrient elements were assimilated by P. tabulaeformis, about 0.34% of the total store in soil, and 3.30% of available nutrient store in soil depth from 0 to 30 cm. The nutrient
annual retention is 35.92 kg/hm2, annual returning 49.46 kg/hm2, the rain input 26.04 kg/hm2 to the five nutrient elements. The parameter absorption coefficient, utilization coefficient, cycle coefficient and turnover
period were cited to describe the nutrient elements cycle characteristic of the planted forest ecosystem of P. tabulaeformis. The absorption coefficient is the ratio of plant nutrient element content to soil nutrient element content, and its sequence
of five nutrient elements was given as follows: N>P>K>Ca>Mg. Utilization coefficient is the ratio of the nutrient element
annual uptake amount to the nutrient element storage in standing crops, and its sequence of five nutrient elements was: Mg>K>
P>N>Ca. The big utilization coefficient means more nutrients stored in the plant. The cycle coefficient is the ratio of the
nutrient element annual return amount to the nutrient element annual uptake amount, its sequence: Ca>N>P>K>Mg. Turnover period
is the ratio of the nutrient storage in the crops to the annual returning, its sequence: Mg>K>P>N>Ca.
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Translated from Journal of Beijing Forestry University, 2008, 30(3): 51–56 [译自: 北京林业大学学报] 相似文献
13.
Nitrogen is normally the nutrient most limiting production of maize (Zea mays) — the main staple food crop — in southern Africa. We conducted a field study to determine the effect of N sources on soil nitrate dynamics at three landscape positions in farmers' fields in southern Malawi. The landscape positions were dambo valley or bottomland, dambo margin, and steep slopes. The N sources were calcium ammonium nitrate fertilizer applied at 120 kg N ha–1, biomass from Sesbania sesban, and no added N. Sesbania biomass was produced in situ in the previous season from sesbania relay cropped with maize. Nitrate in the topsoil (0 to 15 cm depth) increased to 85 days after maize planting (mean = 48 kg N ha–1) and then decreased markedly. Application of N fertilizer and sesbania biomass increased soil nitrate, and nitrate-N in topsoil correlated positively with amount of incorporated sesbania biomass. The strongest correlation between sesbania biomass added before maize planting and topsoil nitrate was observed at 85 days after maize planting. This suggests that the sesbania biomass (mean N content = 2.3%) mineralized slowly. Inorganic N accumulated in the subsoil at the end of the maize cropping season when N fertilizer and sesbania were applied. This study demonstrated the challenges associated with moderate quality organic N sources produced in smallholder farmer's fields. Soil nitrate levels indicated that N was released by sesbania residues in the first year of incorporation, but relay cropping of sesbania with maize may need to be supplemented with appropriately timed application of N fertilizer.This revised version was published online in November 2005 with corrections to the Cover Date. 相似文献
14.
Tatjana Kuznetsova Aljona LukjanovaMalle Mandre Krista Lõhmus 《Forest Ecology and Management》2011,262(2):56-64
The growth, aboveground biomass production and nutrient accumulation in black alder (Alnus glutinosa (L.) Gaertn.), silver birch (Betula pendula Roth.) and Scots pine (Pinus sylvestris L.) plantations during 7 years after planting were investigated on reclaimed oil shale mining areas in Northeast Estonia with the aim to assess the suitability of the studied species for the reclamation of post-mining areas. The present study revealed changes in soil properties with increasing stand age. Soil pH and P concentration decreased and soil N concentration increased with stand age. The largest height and diameter of trees, aboveground biomass and current annual production occurred in the black alder stands. In the 7-year-old stands the aboveground biomass of black alder (2100 trees ha−1) was 2563 kg ha−1, in silver birch (1017 trees ha−1) and Scots pine (3042 trees ha−1) stands respective figures were 161 and 1899 kg ha−1. The largest amounts of N, P, K accumulated in the aboveground part were in black alder stands. In the 7th year, the amount of N accumulated in the aboveground biomass of black alder stand was 36.1 kg ha−1, the amounts of P and K were 3.0 and 8.8 kg ha−1, respectively. The larger amounts of nutrients in black alder plantations are related to the larger biomass of stands. The studied species used N and P with different efficiency for the production of a unit of biomass. Black alder and silver birch needed more N and P for biomass production, and Scots pine used nutrients most efficiently. The present study showed that during 7 years after planting, the survival and productivity of black alder were high. Therefore black alder is a promising tree species for the reclamation of oil shale post-mining areas. 相似文献
15.
From 1986–92 alley cropping with Leucaena leucocephala (Lam.) de Wit and Cajanus cajan (L.) Millsp. was compared to a no-tree control, and fertilisation with 90, 39 and 75 kg ha–1 N, P and K vs. no fertilisation were studied in maize and cassava grown intercropped or in rotation. Light transmission measurements and row position effects on food crop yield did not indicate any decisive shading effect in tree-crop competition when trees were pruned 2–3 times a year. In the last three years, with NPK in solecropping the crop growth rates (CGR) of maize reached a peak of 100 g m–1 wk–1 around 70 days after planting (DAP). CGR in unfertilised Cajanus alleys was as high as in corresponding fertilised treatments but delayed by one month. For cassava, the highest growth rates of 60–130 g m–1 wk–1 lasted from 60 to 190 DAP with NPK in solecropping. The harvest index (HI) of cassaca reached 40–50% in all intercropping and unfertilised solecropping treatments. The HI in solecropping was reduced by fertilisation to 30–40% due to excessive leaf growth at 60–190 DAP. The increase in number of thickened roots starting at 30 DAP in solecropping was delayed by one month in intercropping. The reason for significantly higher cassava root yields in Cajanus alleys as compared to no trees in the fertilised solecrop was attributed to the enhanced root formation at 85 DAP due to a slower release of nutrients subject to leaching such as N and K from tree prunings than from mineral fertiliser. 相似文献
16.
Pinus radiata trees were grown on a podzolized sandy soil at a second rotation site under the following treatments: total weed control, total weed control plus ammonium nitrate, strip weed control and no weed control. During the first two summers after planting the differences in needle water potential between trees under no, strip or total weed control were very small. Despite similar rates of net N-mineralization in strip and total weed control treatments, which averaged 64 kg ha–1 yr–1 in the 0–15 cm soil depth, weeds in the strip weed control treatment reduced soil mineral-N concentrations by 50–80%, leaching of N by the end of the first growing season by 45%, foliar-N concentrations by 4–14% and stem biomass at 20 months after planting by 46%. Although N-uptake by above-ground vegetation (trees plus weeds) was 49% higher in the strip weed control treatment, the amount of N apportioned to trees during the first 20 months after planting was reduced from 15.5 to 9.0 kg ha–1. These effects of weeds were even more pronounced in the no weed control treatment. Since weeds had little effect on the needle water potential of trees and the annual rates of N-mineralization, but adversely affected N-uptake by trees, results indicate that weeds directly competed with trees for N, and thereby aggravated N-deficiency in trees. Application of ammonium nitrate after complete weed control increased foliar-N concentrations, and N-uptake and growth of trees, but also induced severe stem deformation. 相似文献
17.
Soil property changes in contour hedgerow systems on sloping land in the Philippines 总被引:2,自引:1,他引:1
The impact of contour hedgerow systems on soil sustainability under acidic conditions has been widely criticized. A study
was undertaken to determine the effects of management and hedgerow species on soil properties. Cassia spectabilis (a non-N-fixing
tree legume), Gliricidia sepium (an N-fixing tree legume), Pennisetum purpureum (a forage grass), and Stylosanthes guyanensis
(a forage legume) contour barriers were compared with an open field (non-hedgerow treatment) over 1 cowpea and 2 rice seasons.
Three types of management viz.: prunings applied + N0P0K0, prunings applied + N50P20K20 and prunings removed + N50P20K20 were used as subplot treatments. The soils were strongly acidic (pH 4.5) and classified as clay Orthoxic Palehumult. Cassia
performed better than the other species in terms of pruning biomass, N and P contributions over a period of 20 months. There
was a combined positive effect of pruning biomass and fertilizers on rice and cowpea yields in Pennisetum and Gliricidia systems,
while a tendency towards a positive effect of pruning biomass on rice was found in the Cassia system. The pruning biomass
and/or fertilizer application did not significantly influence the top soil organic C, N and available P in the hedgerow systems.
Soil bulk density was significantly reduced by the application of Cassia prunings after 12 months. Organic C, N and P dynamics
indicated that in situ pruning biomass was not sufficient to maintain their level in the soil. But the cassia systems with
prunings applied + N50P20K20 experienced the lowest degradation in soil organic C (2.1 t ha−1) followed by the Gliricidia systems (4.1 t ha−1). The overall results imply that the application of pruning and inorganic fertilizer is imperative to conserve soil resources,
and non- N-fixing tree species can exert a significant advantage in biomass and thereby in soil N-recycling under acidic soil.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
18.
Three-year-old jack pine (Pinus banksiana Lamb.) seedlings in pots were sprayed with gibberellin A4/7 solution during the 1989 growing season. Unsprayed and sprayed controls, and seedlings sprayed with gibberellin A4/7 at three concentrations (200, 400 and 600 mgL-1) were tested in each of five different treatment periods based on jack pine morphogenesis. Each spraying period consisted of five weekly applications between May and October. Trees produced significantly more pollen cones than the two controls when sprayed at 400 or 600 mgL-1 during July and early August. Spraying at 600 mgL-1 during May–June and June–July produced significantly more seed cones than the two controls, as did spraying at 400 or 600 mgL-1 during July and early August. The best treatment for both pollen- and seed-cone production was weekly spraying at 400 or 600 mgL-1 gibberellin A4/7 from early July, which coincided with the end of terminal shoot elongation, through early August, which coincided with microsporophyll initiation in the pollen-cone buds and initiation of the potential seed-cone buds. 相似文献
19.
Alley cropping is increasingly becoming accepted as an appropriate technology with the potential to provide stable and sustainable food production in the tropics. However, only a few of the potential trees/shrubs have been tested. The performance of Calliandra calothyrsus (Meissn) as an alley cropping species was evaluated on an Oxic Paleustalf. The treatments were: prunings removal, prunings application; and three N levels, 0,45, and 90 kg N ha–1, in a factorial arrangement. The cropping sequence was maize (main season) follwed by cowpea (minor season). Nitrogen fertilizer treatments were applied to the maize crop only. Four annual prunings of Calliandra hedgerows produced a total of 6 t ha–1 of dry matter prunings containing about 200 kg ha–1 of N. Maize yields were increased by the application of prunings but no benefits were obtained by supplementing the prunings with inorganic N. An average maize grain yield of 3.1 t ha–1 per year was maintained without any chemical fertilizer input. However, without any prunings, maize yields were substantially increased by the application of inorganic N. Cowpea yield did not respond to application of prunings but plants grown adjacent to the hedgerows had reduced yield probably due to shading. Our results suggest that six rows (0.57 m inter-row spacing) between Calliandra hedgerows spaced at 4 m are optimum for this cowpea variety. The performance of Calliandra was comparable to that of Leucaena which has been widely shown to be effective in alley cropping systems of the region. 相似文献
20.
M. Jensen 《Agroforestry Systems》1993,24(2):171-186
The soil of a west Javanese homegarden was a clay-loam, humic Cambisol of medium fertility, with neutral to weak acid reaction. The 0.13 ha large garden contained about 60 plants species (excluding weeds), of which 39 supplied useful products and the remaining were ornamentals. Tree coverage was 81% and total ground cover, including ground litter and weeds was 99%. The vegetation was multi-layered. Total biomass was estimated to 126 t ha–1, including 4.4 t ha–1 of ground litter. Of the total biomass, 95% belonged to the tree compartment;Cocos nucifera, Eugenia aromatica andLansium domesticum alone constituted 75%.The homegarden resembled young secondary forest both in structure and biomass, and may be considered as a man made forest kept in a permanent early successional state. The nutrient pool stored in the vegetation was generally low compared to the soil reserves. Only the pool sizes of N and K constituted a significant percentage (5.5 and 11.7%, respectively) of soil reserves.It is concluded that the sustainability of the homegarden is connected to the medium fertile soil with large nutrient reserves, the large plant biomass directly and indirectly protecting the soil against erosion and drying, and a high species diversity providing a large variation in crop phenology and stability in nutritional supply. All this is in contrast to what has been experienced in most attempts of practising monoculture on sloping lands on Java. 相似文献