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1.
《Journal of plant nutrition》2013,36(6):1169-1188
Abstract A pot experiment was conducted to assess the effect of mineral fertilization and compost on the growth and chemical composition of ryegrass (Lolium perenne L.) grown on two Malian agricultural soils coming from Baguinéda, abbreviated as Bgda, (12°23′ S, 7°45′ W) and Gao (16°18′ N, 0°). Treatments included non‐fertilized control, NPK alone, NPK + C25, NPK + C50, NPK + C100, PK + C50, NK + C50, NP + C50, K + C50, P + C50, N + C50, and C50 alone, where NPK represents the non modified Hoagland's solution and C25, C50, and C100 represent the different rates (25, 50, and 100 T/ha) of compost. Compost and mineral fertilization significantly increased dry matter production. The application of 50 T/ha of compost alone increased the dry matter yield by 10 and 17.5% while mineral nitrogen–phosphorus–potassium (NPK) increased yield by 69.7 and 65% for Gao and Bgda, respectively. The combination of compost and mineral NPK (NPK + C25 for Gao and NPK + C50 for Bgda) affected the highest dry matter yield. For both soils, N concentrations in plants increased significantly with compost rate. Phosphorus and K concentrations in plants varied according to the soil. The application of compost increased the uptake of iron (Fe), manganese (Mn), zinc (Zn), copper (Cu), and potassium (K from both soils). Increases in soil organic carbon, available P, calcium (Ca), magnesium (Mg), Fe, Mn, Zn, Cu, K, and pH were observed in treatments receiving compost. Therefore, compost appeared to be a good supplier of nutrients for tropical soils. 相似文献
2.
Soil nutrient status and yield of rice as affected by long-term integrated use of organic and inorganic fertilizers 总被引:1,自引:0,他引:1
Nutrient balance is the key component to increase crop yields. Excess and imbalanced use of nutrients has caused nutrient mining from the soil and deteriorated crop productivity and ultimately soil health. Replenishment of these nutrients has a direct impact on soil health and crop productivity. Based on this fact, the present research was conducted to determine the effects of long-term integrated use of organic and inorganic fertilizers on soil nutrient status and yield (grain and straw) in rice. Different combinations of inorganic nitrogen (N) and organic sources (sewage sludge and compost) were applied to the soil. Data revealed that application of mineral NPK in combination with 50% N through compost significantly increased the organic matter content (0.36%), available phosphorus (16.50 kg/ha) and available potassium content (239.80 kg/ha) in soil. The maximum available N (225.12 kg/ha) was found by the substitution of 50% N through sewage sludge. This improvement in soil nutrient status through combined use of organic and inorganic fertilizers produced significant increase in grain and straw yield as compared to inorganic fertilizers alone. Maximum grain (6.96 t/ha) and straw (8.56 t/ha) yields were found in treatment having substitution of 50% N (recommended) through compost @10t/ha. Also, a significant positive correlation was found between soil nutrients and straw and grain yield in rice. Thus the study demonstrated that substitution of 50% inorganic N through compost will be a good alternative for improving soil fertility. 相似文献
3.
The effect of shade and fertilizer application on nutrient uptake and dry matter (DM) partitioning in cocoyam was evaluated by growing the plant under different levels of shade and fertilizer application at Forest and Horticultural Crops Research Centre, Kade, within a period of 9 months. The shade levels used were 80%, 70%, and 50% shade, and full sunlight exposure. The fertilizer rates used were 112 kg/ha nitrogen, phosphorus and potassium (NPK) (15-15-15 120 kg/ha NPK (15-15-15) in a form) of mineral fertilizer, 112 kg/ha NPK organic fertilizer and no fertilizer (control). The split-plot design was used with shade levels as the main plot factor and fertilizer levels as the sub plot factor. The interaction effect of shade and fertilizer had a significant effect (p ≤ 0.05) on DM of cocoyam leaves, petioles, corm, and cormels as well as nutrient accumulation in plant parts. Cocoyam leaves of plants grown under 50–70% shade stored significantly higher (p ≤ 0.05) quantities of nutrients (1.51 ppm of N, 6.61 ppm of P, and 53.10 ppm of K) and accumulated more DM (71.30 g) than leaves of plants grown under full sunlight exposure which accumulated 1.37 ppm of N, 4.31 ppm of P, 26.06 ppm of K, and 30.7 g DM, at the two rates of the chemical fertilizer application. Under full sunlight exposure, significantly higher amounts of DM were accumulated in the corms and cormels at mineral fertilizer level of 112 kg/ha. At mineral fertilizer rate of 120 kg/ha, nutrient accumulation was significantly higher (p ≤ 0.05) in the corm and cormels (1.72 ppm of N and 7.72 ppm of P) of plants grown under full sunlight exposure than those grown under 70% shade level (0.6 ppm of N and 2.94 ppm of P). Nitrogen and phosphorus accumulation was significant in the petioles of plants grown under the 70% shade level at fertilizer rate of 120 kg/ha. It is recommended that cocoyam be grown under 50–70% shade at a fertilizer rate of 112–120 kg/ha for leaf production and under full sunlight exposure at 112 kg/ha (NPK) for cormel production. 相似文献
4.
Nutrient supply through organic sources usually requires fortification for timely and optimum release of plant nutrients to achieve optimum crop performance. A pot experiment was conducted in a screen house to determine the optimum rate of cassava peel compost (CPC) fortification that supports optimum Amaranthus (Amaranthus cruentus L.) plant nutrient contents and residual soil nutrient contents. A compost of cassava peel and poultry manure was applied at 2.5; 5.0 and 7.5 t ha?1each complemented with either 25 or 50 kg nitrogen (N), using nitrogen, phosphorus and potassium (NPK) 20-10-10 at 2 weeks before sowing Amaranthus. An unfertilized treatment served as control. Seeds were sown in plastic containers with a surface diameter of 24 cm filled with 5 kg soil, with a drain underneath. Seedlings were thinned to 4 plants/pot 2 weeks after planting. Plants were harvested at 5 weeks by ratooning and plant re-growth also harvested after 5 weeks. Soil pH was lower with high rates of 5.0 and 7.5 t ha?1 CPC while the organic matter content was increased with increased CPC rate. Soil N was reduced but reflected in increased plant shoot and root N, with compost application. Soil P was generally increased but was not reflected in plant contents. Soil K contents were reduced and were reflected in increased plant contents. Application of 2.5 t ha?1 CPC, fortified with either 25 or 50 kg N ha?1 gave the optimum Amaranthus shoot nutrient contents with optimum residual soil nutrient contents. 相似文献
5.
6.
We did a pot experiment with three different fertilized soils (no fertilizer (No-F), inorganic fertilizer nitrogen, phosphorus and potassium (NPK), manure plus inorganic fertilizer (MNPK)) from a 19-year fertilizer trial. Three N treatments, (1) no N, (2) 100 mg/kg urea-15N (N), (3) 50 mg/kg urea-15N + 50 mg/kg corn straw-N (1/2N + 1/2S), were applied to each soil. The residual soil from the same treatments was used to grow second wheat crop. The MNPK soil had significantly higher nitrogen use efficiency (NUE) in the first growing season, and lower N loss than the NPK, and No-F soils. The 1/2N + 1/2S treatment decreased NUE on each soil, even though the MNPK soil still had highest NUE and lowest N loss. The residual 15N use efficiency (RNUE) in 1/2N + 1/2S treatment of MNPK soil was higher than NPK and No-F soils. We concluded that long-term application of manure plus inorganic fertilizer increased NUE and decreased N loss. 相似文献
7.
A field study evaluated the effects of NPK (21:17:17) and compost on vegetative growth, proteins, and carbohydrates of Moringa oleifera. The experimental design was randomized complete block design (RCBD) with six treatments replicated three times. Compost and NPK fertilizers were applied together which include control (without fertilizer) 5 t ha?1 (Compost), 120 kg ha?1 (NPK), 50 + 50% ha?1 (NPK + Compost), 10 + 50% ha?1 (NPK + Compost), and 50 + 10% ha?1 (NPK + Compost) per plot. For NPK fertilizer, the rate was 10 and 50% of 120 kg ha?1 and for compost it was 10 and 50% of 5 t ha?1. The measured growth parameters were plant height (cm), stem girth (mm), number of leaves, and number of branches per plant. Results showed that 120 kg ha?1 (NPK) treatment produced plants of more height, stem girth, more number of leaves, maximum number of branches as compared to other treatments at week 8 with higher protein. Carbohydrate content was high in 50 + 50% (NPK + Compost) compared to others. 相似文献
8.
《Communications in Soil Science and Plant Analysis》2012,43(3-5):281-299
Abstract Recycled paper treated with boric acid (BA) is gaining acceptance as bedding in broiler houses. Applying this litter to Kentucky 31 (K‐31) tall fescue, Festuca Arundinacea Shreb, pastures raises the issue of potential boron (B) toxicity. There is also the question of nitrogen (N) availability from composts made with borated paper and broiler manure. The effect of five N sources at 224, 448, and 896 kg N/ha in a factorial arrangement plus an unfertilized control and high nitrogen‐phosphorus‐potassium (NPK) + additional boron at 45 kg B/ha on growth and NPKB uptake of K‐31 tall fescue was determined in a greenhouse during the spring of 1992. The five N sources were (1) inorganic salts, (2) compost made from hen manure, broiler manure, fescue hay and bark (M1), (3) fresh broiler litter (M2), (4) compost made from broiler manure and borated paper bedding (M3), (5) compost from hen manure, oak leaves, broiler litter (M4). The soil was Cecil sandy clay loam subsoil. Six harvests were made at 4‐cm cutting heights for determination of dry matter, N, P, K, and B uptake in tops, stubble, roots, and residue. Relative yield response of M2 was 65% of that from inorganic NPK, whereas the yield of the three composts was 22–30% of that from inorganic NPK. Over 50% of the N applied in compost residue remained at the soil surface. Boron toxicity to K‐31 as estimated from yield reduction or from visual symptoms did not occur from 20 kg B/ha in compost made with borated paper (M3). However, a 12% yield reduction did occur at the 45 kg B/ha rate from inorganic B. Industry efforts to reduce the amount of boric acid used in the treatment of recycled paper, the high mobility of B in humid areas, the apparent ability of K‐31 tall fescue to tolerate massive quantities of compost and high rates of B application suggest that the application of the broiler litter from houses where BA‐treated recycled paper is used as bedding would be environmentally safe at application rates based on N requirements of K‐31 tall fescue. 相似文献
9.
Hans-Jürgen Reents 《植物养料与土壤学杂志》1987,150(1):31-36
Effect of different fertilizers on the potential N2-fixing capacity (acetylene-reduction assay) of a sandy orthic luvisol The N2-fixation capacity of 36 different soil samples, taken from a field trial with 4 fields crops, was tested by the acetylene-reduction-method. Each of the 4 plots was divided into strips. I = mineral fertilizer (NPK), II = stable manure compost, III = stable manure compost with bio-dynamic preparations. These different kinds of fertilizer were given in three amounts of N: 1 = 0,5 × A kg N/ha, 2 = 1 × A kg N/ha, 3 = 1,5 × A kg N/ha. Like the 3 years before in 1984 rye ?Halo”? A = 100, potatoes ?Nicola”? A = 120, red beets ?Rote Kugel”? A = 160, carrots ?Luwal”? A = 120 were cultivated. The soil samples were taken after harvest, dried and sieved. 50 g soil were moistened with a glucose-solution, hatched at 25°C for 24 h and then incubated for another 24 h at the same temperature and an acetylene concentration of 9,23%. The amount of ethylene which had developed after 8 h, 15 h and 24 h was analysed by GC. The acetylene-reduction (AR) of the soils was significantly higher after the cultivation of rye and potatoes compared with carrots and red beets; but always the crops formed the main influence. On an average the organic manured soils showed a higher AR than the mineral fertilized ones. The encouraging effect of the different organic manures was depending on the type of crop. 相似文献
10.
High transportation cost is a barrier which prevents land application of compost far away from where the compost is produced. As a result, use of compost in lawns is becoming a popular alternative in municipalities where compost is produced from municipal solid/biosolid waste. A four-year (2002 to 2005) field experiment was conducted on turfgrass [20% Kentucky Blue (Poa pratensis L.) + 80% Creeping Red Fescues (Festuca rubra L.)] grown on a Black Chernozem soil near Edmonton, Alberta, Canada, to determine the effect of rate and frequency of spring application of compost (prepared from soild/biosolid waste of city of Edmonton) on biomass, sward color, concentration and uptake of nutrients of sward, and soil chemical properties. There were three compost treatments: 50 Mg ha?1 annual; 100 Mg ha?1 (1st year) + 50 Mg ha?1 (2nd year) split, and 150 Mg ha?1 once in three years (2002, 2003 and 2004) applications. In addition, there were check (no fertilizers or compost) and annual nitrogen-phosphorus-potassium-sulfur (NPKS) fertilizer application (100 kg N + 20 kg P + 42 kg K + 20 kg S ha?1 annual) treatments. In the fourth year (2005), residual effect of applied compost on turfgrass growth was determined. Annual application of compost at 50 Mg ha?1 had more green color of leaf, and higher sward N concentration and biomass production of turfgrass for prolonged periods than the check treatment. In comparison with annual application, high initial compost and split applications generated greater turfgrass growth only in the first two years, but produced higher cumulative biomass over the three- or four-year period. Both annual and cumulative biomass yields were highest in treatments receiving NPKS fertilizers. After four growing seasons, there was no residual mineral N in soil from both compost and NPKS fertilizer, and no residual sulfate-S in soil from NPKS fertilizer treatments. The amounts of extractable P and exchangeable K in soil were greater in compost treatments than in the NPKS fertilizer treatment. There was downward movement of extractable P into the 15–30 cm soil depth in one-time initial and split compost and NPKS fertilizer treatments, and of sulfate-S in all compost treatments. In conclusion, annual application of compost in spring at 50 Mg ha?1 is recommended for sustainable color and growth of turfgrass. 相似文献
11.
《Communications in Soil Science and Plant Analysis》2012,43(15-16):2282-2302
Efficient crop use of nitrogen (N) fertilizer is critical from economic and environmental viewpoints, especially under irrigated conditions. Cotton yield parameters, fiber quality, water‐ and N‐use efficiency responses to N, and irrigation methods in northern Syria were evaluated. Field trials were conducted for two growing seasons on a Chromoxerertic Rhodoxeralf. Treatments consisted of drip fertigation, furrow irrigation, and five different rates of N fertilizer (50, 100, 150, 200, and 250 kg N /ha). Cotton was irrigated when soil moisture in the specified active root depth was 80% of the field capacity as indicated by the neutron probe. Seed cotton yield was higher than the national average (3,928 kg/ha) by at least 12% as compared to all treatments. Lint properties were not negatively affected by the irrigation method or N rates. Water savings under drip fertigation ranged between 25 and 50% of irrigation water relative to furrow irrigation. Crop water‐use efficiencies of the drip‐fertigated treatments were in most cases 100% higher than those of the corresponding furrow‐irrigated treatments. The highest water demand was during the fruit‐setting growth stage. It was also concluded that under drip fertigation, 100–150 N kg/ha was adequate and comparable with the highest N rates tested under furrow irrigation regarding lint yield, N uptake, and recovery. Based on cotton seed yield and weight of stems, the overall amount of N removed from the field for the drip‐fertigated treatments ranged between 101 and 118kg and 116 and 188 N/ha for 2001 and 2002, respectively. The N removal ranged between 94 and 113 and 111 and 144 kg N/ha for the furrow‐irrigated treatments for 2001 and 2002, respectively. 相似文献
12.
《Communications in Soil Science and Plant Analysis》2012,43(21):2721-2733
Poultry manure and nitrogen–phosphorus–potassium (N–P–K) fertilizer application and their residual effects on soil physical properties were investigated with soils drawn from two distinct ecological zones, Agbede (derived savanna) and Obadan (forest), of Edo State of southern Nigeria in 2005 and 2006 rainy seasons. The treatments consisted of three levels of poultry manure (0, 4, and 6 tons/PM/ha) and four levels of NPK 15:15:15 fertilizer (0, 50, 100, and 150 kg NPK ha?1), which were combined factorially, arranged in a randomized complete block design, and replicated three times. Poultry manure, combined application of poultry manure and NPK fertilizer in 2005, and their residual effects in 2006 gave greater degree of saturation and soil moisture content and lower soil bulk density in both locations but were significantly better in the Obadan location in 2006. The lowest bulk densities of 1.16 and 1.15g cm2 were obtained with the application of 6 tons PM ha?1 + 50 kg NPK ha?1 in Obadan soils in 2005 and 2006, respectively. Water-stable aggregate, porosity, void ratio, and air-filled porosity were greater in 2006 due to the residual effects of poultry manure and its combined application with NPK fertilizer than in 2005. In contrast, fertilizer application alone reduced void ratio, porosity, and air-filled porosity of the soils. 相似文献
13.
Fate of residual 15N-labeled fertilizer in dryland farming systems on soils of contrasting fertility
AbstractUp to 50% of nitrogen (N) fertilizer can remain in soil after crop harvest in dryland farming. Understanding the fate of this residual fertilizer N in soil is important for evaluating its overall use efficiency and environmental effect. Nitrogen-15 (15N)-labeled urea (165 kg N ha?1) was applied to winter wheat (Triticum aestivum L.) growing in three different fertilized soils (no fertilizer, No-F; inorganic nitrogen, phosphorus and potassium fertilization, NPK; and manure plus inorganic NPK fertilization, MNPK) from a long-term trial (19 years) on the south of the Loess Plateau, China. The fate of residual fertilizer N in soils over summer fallow and the second winter wheat growing season was examined. The amount of the residual fertilizer N was highest in the No-F soil (116 kg ha?1), and next was NPK soil (60 kg ha?1), then the MNPK soil (43 kg ha?1) after the first winter wheat harvest. The residual fertilizer N in the No-F soil was mainly in mineral form (43% of the residual 15N), and for the NPK and MNPK soils, it was mainly in organic form. The loss rate of residual 15N in No-F soil over summer fallow was as high as 48%, and significantly (P < 0.05) higher than that in the NPK soil (22%) and MNPK soil (19%). The residual 15N use efficiency (RNUE) by the second winter wheat was 13% in the No-F soil, 6% in the NPK soil and 8% in the MNPK soil. These were equivalent to 9.0, 2.0 and 2.2% of applied 15N. The total 15N recovery (15N uptake by crops and residual in 0–100 cm soil layer) in the MNPK and NPK soils (84.5% and 86.6%, respectively) were both significantly higher than that in the No-F soil (59%) after two growing seasons. The 15N uptake by wheat in two growing seasons was higher in the MNPK soil than in NPK soil. Therefore, we conclude that a high proportion of the residual 15N was lost during the summer fallow under different land management in dryland farming, and that long-term combined application of manure with inorganic fertilizer could increase the fertilizer N uptake and decrease N loss. 相似文献
14.
《Communications in Soil Science and Plant Analysis》2012,43(3-5):259-279
Abstract Recycled paper treated with boric acid (BA) is gaining acceptance as bedding in broiler production houses. Applying this litter, or compost made from this litter, to turf raises an issue of boron (B) toxicity. There is also the question of nitrogen (N) availability from composts made from borated paper and broiler manure. The objective of this study was to determine if broiler house litter containing recycled BA‐treated paper poses a toxicity hazard to bermudagrass turf (Cynodon dactylon L. pers x C. Transvaalensis, Burtt‐Davis) when applied at agronomic N rates. The effects of five N sources at rates equivalent to 224, 448, and 896 kg N/ha in a factorial arrangement plus an unfertilized control and a high nitrogen‐phosphorus‐potassium (NPK) treatment with B at 22 kg B/ha on bermudagrass were determined in pot culture during the summer of 1992. The five NPKB sources were (M1) compost made from broiler manure, BA‐treated paper and yard refuse; (M2) fresh broiler manure with BA paper bedding; (M3) fresh broiler manure with pine shavings bedding; (M4) inorganic NPK; and (M5) inorganic NPK and BA. The soil was Cecil sandy clay loam subsoil. Top growth was harvested four times at 4 cm height with tops, roots, and stubble harvested at the fifth and final harvest. Composted litter was higher in water content and lower in NPK and B than fresh litter. As a result, over four times the mass had to be applied to achieve the desired N inputs. Boron concentrations in M1 on a dry matter basis were 290, M2=390, M3=52 mg B/kg, respectively. The NPK gave highest yields and compost (M1) gave the lowest yields. Yield response of fresh manure + BA paper was not different from fresh manure + pine shavings. Nitrogen recovery in plant growth from composts was very low. Nitrogen recovery in compost residue at the soil surface was very high. Nitrogen recoveries for BA paper litter and pine shavings litter were similar. No visual symptoms of B toxicity were observed, although a 16% yield reduction occurred at 22.4 kg B/ha at the 896 kg N/ha rate from NPK. Boron recovery in plant growth was negligible, but considerable B remained in the residue at the soil surface. Yield response efficiency was M1=2.5, M2=4.8, M3=5.3, NPK=15.5, NPKB=14.3 mg DM/mg N, respectively. Plant top N recovery response efficiency in mg N recovered/mg N per pot was 0.07, 0.15, 0.165, 0.63, and 0.58 for M1, M2, M3, NPK, and NPKB, respectively. Adding stubble, roots, and residue to total N recovery resulted in the following recoveries: M1=0.97, M2=0.25, M3=0.35, NPK=0.73, NPKB=0.68 mg N/ mg N applied. The risk of B toxicity to Tifway 2 bermudagrass from compost or manure containing BA‐treated paper is minimal if N rates are in the agronomic utilization range. 相似文献
15.
Saranya Kuppusamy Aillen Rose Daquiado Song Yeob Kim Young-Eun Yoon Jang Hwan Kim Sook Jin Kim 《Archives of Agronomy and Soil Science》2018,64(10):1379-1393
Evidence linking the direct impact of fertilization on diversity, function and phylogeny of N-fixing and P-solubilizing bacteria in rice ecosystem is lacking. This study using phospholipid fatty acid (PLFA) and 454 pyrosequencing analyses was conducted in long-term fertilized (NP, NK, PK, NPK, compost, NPK + compost) paddy field soil, the objective being to examine the community structure of the functionally important beneficial soil microbial communities. Maximum total PLFAs were observed in organic fertilizer treatments, viz. compost (881.5 ± 11.1 nmol g?1) and NPK + compost (866.5 ± 10.8 nmol g?1). Pyrosequencing revealed that the overall bacterial and eukaryal compositions at phyla level were not significant for all treatments, while the distribution of each phyla differed. Specifically, the major classified bacterial phyla for all treatments were Proteobacteria, Actinobacteria, Cyanobacteria and Firmicutes. Supported by the high throughput sequencing approach we hereby propose that the mechanism of N and P cycling under long-term balanced fertilization in a rice ecosystem is largely governed by microbes, notably by the free living N-fixing and/or P solubilizing heterocystous and/or non-heterocystous cyanobacteria, autotrophic bacteria and heterotrophic bacteria. The current study thus proposes that balanced fertilizers may be used without detrimental effects on rice soils in the long-term. 相似文献
16.
长期有机养分循环利用对红壤稻田土壤供氮能力的影响 总被引:2,自引:1,他引:2
通过15年的田间定位试验结合盆栽试验,研究了长期有机养分循环利用和不同化肥配施对红壤稻田土壤供氮能力的影响。结果表明,土壤有机碳、全氮、微生物生物量氮(MB-N)和土壤氮的矿化量与生物吸氮量有极显著的正相关关系,是良好的土壤供氮能力指标。长期有机养分循环利用或配合化肥施用能显著提高土壤有机碳、全氮含量和氮的矿化量,提高幅度分别为20.1%4~0.9%、0.460~.60.g/kg和55.0%(6周);明显提高土壤MB-N含量,提高幅度平均为70.3%。长期纯化肥处理对土壤碳、氮库的积累和氮的矿化量的提高作用甚微。盆栽试验表明,长期施用氮肥和氮、磷、钾肥土壤供氮量提高量极小,与长期不施肥相比提高幅度分别为2.1%和6.2%,而有机养分循环利用能显著提高土壤供氮量,提高幅度为33.7%8~9.0%。随着有机养分循环利用和NPK肥配合程度的提高,土壤供氮量提高幅度呈上升的趋势。 相似文献
17.
B. K. Ramachandrappa G. R. Maruthi Sankar A. Sathish G. N. Dhanapal M. A. Shankar B. M. K. Raju 《Communications in Soil Science and Plant Analysis》2016,47(12):1476-1492
Field experiments were conducted in farmyard manure (FYM) and maize-residue (MR) blocks during 1984–2011 with the objective of identifying a superior treatment for attaining maximum finger millet yield and soil fertility at Bangalore. The treatments tested in the FYM block were Control; FYM@10tha?1; FYM@10tha?1 + 50% nitrogen, phosphorus, and potassium (NPK); FYM@10tha?1 + 100%NPK; 100%NPK; and in the MR block, Control; MR@5tha?1; MR@5t ha?1 + 50%NPK; MR@5tha?1 + 100%NPK; 100%NPK. FYM@10t/ha + 100%NPK gave a maximum mean yield of 3207 kg/ha in the FYM block, while MR@5t/ha + 100%NPK gave 2548 kg/ha in the MR block. Regression and principal component (PC) models of yield were developed through soil fertility and rainfall variables to assess the treatments. Maximum yield predictability of 60% and 65% under regression, and 76% and 75% under the PC model were observed for the FYM and MR blocks, respectively. FYM@10t/ha + 50%NPK was superior, with maximum gross returns of Rs.41286/ha and benefit–cost ratio (BCR) of 2.27 in the FYM block compared to MR@5t/ha + 100%NPK (gross returns of Rs.34530/ha and BCR of 2.09) in the MR block with maximum soil fertility, and are recommended for adoption under semi-arid Alfisols. 相似文献
18.
Gani O. Kolawole Oladayo Eniola Yetunde B. Oyeyiola 《Journal of plant nutrition》2013,36(15):1903-1915
AbstractA pot experiment was conducted to determine most limiting nutrients for maize performance using nutrient omission treatments in three soil types of southwestern Nigeria. There were six treatments; full nutrient [120?kg nitrogen (N)/ha, 40?kg phosphorus (P)/ha, 80?kg potassium (K)/ha, 10?kg molybdenum (Mo)/ha, and 5?kg zinc (Zn)/ha]; full nutrient minus N, P, K, Mo, and Zn including control was replicated thrice. Treatments were arranged as split plot in a complete randomized design. Data were collected on growth parameters, shoot, root dry weights, and NPK uptakes. Data were subjected to analysis of variance and means separated using LSD0.05. Majeroku and Egbeda soils and full nutrient supported better maize growth and NPK uptakes. Shoot weight was higher in Egbeda while root weight was higher in Itagunmodi soil. Phosphorus was the most limiting in Egbeda and Itagunmodi soils, and nitrogen in Majeroku soil. In conclusion, maize growth, nutrient uptake and most limiting nutrient varied with soil types. 相似文献
19.
采用盆栽试验和短期矿化培养相结合的方法,研究了施入15N标记氮肥(+N)及其与秸秆配施(+1/2N+1/2S)在3种长期(19年)不同培肥土壤(即:No-F,长期不施肥土壤;NPK,长期施用NPK化肥土壤;MNPK,长期有机无机肥配施土壤)中的残留及其矿化和作物吸收特性。结果表明,第一季小麦收获后,+1/2N+1/2S处理下三供试土壤和+N处理下的NPK和MNPK土壤残留肥料氮(残留15N)中有82.6%~95.1%以有机态存,而+N处理下No-F土壤残留15N有47.7%以矿质态存在。经过28 d矿化培养后,与NPK土壤相比,MNPK土壤氮素净矿化量显著增加,增幅为39%~49%;NPK和MNPK土壤残留肥料氮(残留15N)矿化量为1.23~1.90 mg kg-1,占总残留15N的2.78%~5.53%,均显著高于No-F土壤。与+N处理相比,+1/2N+1/2S处理显著提高了3供试土壤氮素净矿化量,但两施肥处理对NPK和MNPK土壤残留15N矿化量无显著影响。+N处理下No-F土壤残留15N的利用率为20%,显著高于NPK(9%)和MNPK(12%)土壤。两种施肥处理下,MNPK土壤残留15N的利用率均显著高于NPK土壤。短期培养期间土壤氮素矿化量和第二季小麦生育期作物吸氮量呈显著性正相关,而残留15N矿化量和第二季小麦吸收残留15N量间无显著性相关关系。长期有机无机配施可以提高土壤残留肥料氮的矿化量及有效性。 相似文献
20.
Rajeev Padbhushan Anupam Das Rajiv Rakshit Rajendra Prasad Sharma Anshuman Kohli Rajesh Kumar 《Communications in Soil Science and Plant Analysis》2016,47(21):2445-2457
A field experiment was conducted to investigate the influence of long-term application of organic manures on aggregate stability, associated carbon concentrations and carbon pools as an important soil-quality parameter under a scented rice-potato-onion cropping system in silt-loam textured soil in Eastern Bihar, India (subtropical climatic condition). Five treatments were used: 1) nitrogen, phosphorus and potassium (NPK) – 100% recommended dose of NPK; 2) NPK+FYM (farmyard manure) – 50%NPK+50% N as FYM; 3) FYM+VC (vermicompost)+ NC (neem cake) – different organic sources each equivalent to 1/3 of the recommended N (FYM +VC +NC); 4) FYM+VC+NC+PSB (phosphate-solubilizing bacteria – different organic sources each equivalent to 1/3 of the recommended N (FYM +VC+NC)+biofertilizers containing N and P carriers (PSB) and 5) FYM+BFN+BM+PSB – 50% N as FYM + biofertilizer for N +Bone meal to substitute P requirement of crops + PSB. The aggregate size distribution (>250 μm) at different soil depths is higher in treatment FYM+VC+NC+PSB and is at par with FYM+VC+NC, followed by FYM+BFN+BM+PSB and NPK+FYM, and the lowest in treatment receiving 100% NPK. The mean carbon concentration in each soil fraction was higher in soil depth 0–10 cm, followed by 10–20 cm and 20–30 cm. The trend of mean weight diameter (MWD) in different treatments was FYM+VC+NC+PSB ≥ FYM+VC+NC > NPK+FYM > FYM+BFN+BM+PSB > NPK. The trend of carbon concentrations in different treatments was FYM+VC+NC+PSB ≥ FYM+VC+NC > FYM+BFN+BM+PSB ≥ NPK+FYM > NPK. Non-labile pool of carbon forms the major portion (60.14%) of the total soil organic carbon (SOC) irrespective of all depths. Bulk density (BD) has a significant role in stabilizing soil aggregates as well as increasing the SOC content in soil. SOC was negatively correlated with BD (r = ?0.870, p = 0.05), MWD (r = ?0.911, p = 0.01) and geometric mean diameter (GMD) (r = ?0.958, p = 0.05) irrespective of depth. This study took further steps toward understanding the enhancing of aggregate stability on organic manures addition for soil quality improvement. 相似文献