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1.
Hasnuri Mat Hassan Hasbullah Hasbullah Petra Marschner 《Biology and Fertility of Soils》2013,49(1):41-49
Legume pre-crops may increase P uptake of the following wheat, but the mechanisms behind this effect are unclear. A rotation study was carried out to assess the concentrations of rhizosphere P pools of three grain legumes and wheat (phase 1) and their effects on P uptake and P pools in the rhizosphere of the following wheat (phase 2). Faba bean, chickpea, white lupin and wheat were grown for 10 weeks in a loamy sand soil with low P availability. The following wheat was grown in the pre-crop soil with and without addition of pre-crop residues. Among the pre-crops, white lupin had the strongest effect on the P pools; it depleted the labile P pools, resin P and NaHCO3-Pi and also the less labile P pools, NaOH-Pi and residual P; whereas the concentration of NaHCO3-Po was higher than that in the rhizosphere of the other pre-crops. White lupin had a smaller biomass compared to faba bean which depleted the P pools to a lesser extent. Phosphorus uptake of the following wheat was greatest in white lupin pre-crop soil. Chickpea increased P uptake of the following wheat when residues were added. In the presence of residues, wheat after legumes depleted labile P pools to a greater extent than wheat after wheat, but this coincided with greater P uptake only in wheat after chickpea and white lupin, which may be explained by the small root biomass of wheat after faba bean. The results show that the greater P uptake of the following wheat induced by pre-crops may be due to two mechanisms: P mobilisation (white lupin) or P addition with legume residues (chickpea). This study further showed that P uptake by a crop is only partly a function of the depletion of P in the rhizosphere; another important factor is the ability to exploit a large soil volume. 相似文献
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John M. Swiader 《Journal of plant nutrition》2013,36(10):909-919
Growth and N‐P‐K uptake in pumpkin (Curcubita moschata Poir.) cv ‘Libby‐Select’ were studied in dryland and irrigated culture. In both moisture regimes, maximum rates of dry matter accumulation occurred between the early and mid‐fruiting developmental stages. Higher total dry matter production with irrigated than dryland culture was primarily associated with increased shoot growth. Concentrations of N, P, and K in foliage generally decreased as pumpkin age increased. Irrigated pumpkins in conjunction with higher total vegetative dry matter accumulated more N, P, and K than dryland pumpkins. Up through early fruit development, N, P, and K accumulation was primarily in leaves and vines and by the late growth stages was almost entirely in the fruit. Total N, P, and K uptake at late fruiting was estimated at 219, 32, and 228 kg/ha in irrigated pumpkins and 180, 21, and 177 kg/ha in dryland pumpkins. Approximately 58% of the N, 52% of the K, and 68% of the P accumulated by late‐fruiting was absorbed by the plant after the early‐fruiting stage in both moisture regimes. Potassium redistribution from vegetative tissues during late fruit development decreased foliar K contents 32% in dryland pumpkins and 21% in irrigated pumpkins. 相似文献
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Liu Junbo Hu Junli Cheng Zhang Li Minghui Liu Zihao Wang Junhua Lin Xiangui 《Journal of Soils and Sediments》2021,21(2):842-852
Journal of Soils and Sediments - Both earthworm (Eisenia fetida L.) and phosphorus (P)-releasing (PR) bacteria, including organic P-mineralizing (OPM) and inorganic P-solubilizing (IPS), are able... 相似文献
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Jonas Ystaas Oddmund Fr⊘ynes 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2013,63(4):244-246
Abstract The performance of the Polish rootstocks P2 and P22 under Norwegian growing conditions was evaluated over 10 years (1983–92). Tree vigour of the apple cultivar ‘Gravenstein’ on P2 and P22 was 64 and 16% of that on M9, respectively. Trees on P2 had the highest yield efficiency, but less total yield per tree than M9. Owing to very dwarfing growth, trees on P22 failed to establish a sufficient canopy and produced significantly smaller apples. P2 and P22 affected apple soluble solids in a favourable way, but did not influence fruit acidity. 相似文献
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《Communications in Soil Science and Plant Analysis》2012,43(14):1645-1653
Abstract Direct fertilization of peanuts (Arachis hypogaeaL.) with P and K has generally shown few yield responses, resulting in only limited information concerning critical soil‐test levels of P and K. The purpose of the experiments in this report was to determine the critical soil‐test levels of P and K for runner peanuts using the double‐acid extraction procedure. Fertilizer experiments were conducted on farmers’ fields from 1973 to 1986. Site selection was based on soil test data that indicated “medium”; or “low”; levels of available P or K but “high”; in Ca and Mg. Phosphorus and potassium were applied together at all sites at rates of 20 and 74 kg/ha, respectively, as concentrated superphosphate and potassium chloride. There were yield increases to fertilizer in 6 of the 39 experiments. Soil‐test P for these six ranged between 4 and 53 kg/ha; soil‐test K ranged between 10 and 31 kg/ha. Delineating the yield effect into their P and K components with the aid of multiple regressions of yield on soil test values showed that yield increases were due to the K component of the fertilizer. The critical soil‐test K value was calculated to be 37 kg/ha. Sound mature kernels (SMK) were generally unaffected by fertilizer. 相似文献
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WANGGUANG-HUO 《土壤圈》1992,2(1):79-84
Isotopic exchangeability of phosphorus in four Chinese soils with and without P application was studied by ^32P and ^33P double-labeling technique in relation to routine chemical extractions.The results showed that Bray-I and Bray-Ⅱ reagents could extract most of the fast exchangeable P.Not all of the Olsen-P belonged to fast exchangeable P,but it was about the same quantity of fast exchangeable P in a calcareous soil and a neutral soil without P application.Sequential fractionation of the soil phosphorus showed that most of the added radioisotopes in high P fixation red soils were tightly held by iron and aluminium oxides,which could be totally extracted only by 0.1M NaOH solution.In the neutral and calcareous soils most of the radioisotopes added were loosely held on the surface of soil particles and could be extracted by anion exchange resin.Phosphate application increased the resin-P fraction significantly for all the soils studied. 相似文献
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With P being a non-renewable resource, the use of microbial inoculants and waste products for more efficient and sustainable P use in plant production has been proposed. We investigated the ability of Penicillium bilaii to mobilize P in a low-fertility soil with or without amendment of sewage sludge as additional P source. Maize was grown for 27 days in rhizoboxes enabling studies of root growth in addition to plant and soil parameters. P. bilaii was inoculated either at the seed or the sewage sludge patch. At early growth stages, P. bilaii inoculation of seeds increased maize shoot length. However, at the end of experiment, the effect had ceased. Root growth was increased by seed P. bilaii inoculation alone and in combination with sewage sludge, whereas patch inoculation was less effective. Colonization studies performed at harvest showed that P. bilaii could not be detected in the maize rhizosphere but stayed at the place of inoculation. In sewage sludge patches, the growth of Penicillium strains other than P. bilaii was stimulated; hence, using sewage sludge for combined P resource and carrier of microbial inoculants is discussed. Unexpectedly, the greater root development of seed-inoculated plants did not result in increased plant P uptake and neither did inoculation at the sewage sludge patch. This study raises the question if the soil P status can be too low for a beneficial effect of additional early root growth and thus a beneficial effect of seed inoculation of P. bilaii. 相似文献
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M.V. Gómez‐Rodríguez J. de. Luna del Castillo M.C. Alvarez‐Tinaut 《Journal of plant nutrition》2013,36(17):2211-2229
Both enzymatic activities increased under B‐deficient and B‐toxic treatments. The ortho‐diphenolic content did not change with B levels. Our results suggest that the primary B action on the OPP pathway is at the first enzyme (glucose‐6P‐dehydrogenase) level and that the B effect on 6P‐gluconate‐dehydrogenase is secondary to this. The B action on the enzymatic activities seems not to be caused by any direct interaction with substrates, as B infiltration of B‐deficient culture “in vivo”; seems to result in long term effects on cell structures and/or processes not easily r In this paper the glucose‐6P‐dehydrogenase and 6P‐gluconate ‐ dehydrogenase activities and ortho‐diphenolic content of hydroponically‐cultivated sunflower‐leaves with moderately deficient, normal and toxic B levels were measured. The change in these parameters during time was considered, together with the restoration of enzymatic activities by means of borate infiltration of deficient and normal leaves. The micronutrient content of the leaves was alsversible by B infiltration of leaves. The positive correlation found between the 6P‐gluconate‐dehydrogenase activity and the Zn content in leaves might be interpretable as and indirect B effect on that activity through modification of Zn content. 相似文献
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《CATENA》2001,45(3):185-207
In northern Ecuador, soils of high altitude grasslands (páramos) are mainly non-allophanic Andisols developed on Holocenic volcanic ash. These soils have a high water retention capacity and are the “water tank” of central Ecuador. To assess the effect of land use (burning and tillage) on soil hydrodynamic properties, rainfall simulation was conducted at two different sites. At Pichincha near Quito, the simulation was conducted on a recent volcanic ash soil comparing natural, tilled and burned plots. At El Angel, the simulation was conducted on a mature non-allophanic Andisol comparing natural, recently tilled and formerly cultivated plots.On natural plots, the infiltration rate was very high and sediment loss very low. Results for infiltration rate and runoff indicated that land use change on páramos increased runoff flow and reduced saturated hydraulic conductivity. Superficial reorganisation of the soil surfaces occurred on tilled plots at both sites. This crusting process was fast and resulted in surfaces with very low conductivity at Pichincha. The same processes seemed to be slower at El Angel. The soil surface of recent Andisols at Pichincha was prone to crusting whereas the mature Andisol, at El Angel, with a lower bulk density, was compacted when the kinetic energy of raindrops was high. Water repellency occurred after burning at Pichincha and following long natural air drying after tillage in the non-allophanic A horizon at El Angel. Water repellency combined with the low bulk density of soil aggregates explain the intensity of sediment losses in the abandoned soils after cultivation (Bare fallow plots). Erosion occurred in these areas through floating hydrophobic and stable aggregates. 相似文献
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2007-2009年度在海门市进行了油菜3414肥料效应试验.结果表明:海门市油菜产量与氮、磷、钾肥用量之间呈三元二次回归效应关系,2007-2008年度和2008-2009年度试验点综合肥料效应方程分别为:y2007-2008=98.220+ 4.876N -0.23 1N2+ 13.399P - 1.748P2+ 6.346K - 0.621K2+ 0.377NP+ 0.126NK+ 0.090PK和y2008-2009=110.352+ 7.636N - 0.311N2+ 7.178P -0.929P2+ 3.923K - 0.550K2+ 0.152NP+ 0.175NK+ 0.173PK.平均每千克养分增产油菜籽分别为:N 5.36kg,P2O57.78kg,K2O4.14kg; N+P2O53.74kg,N+K2O2.83kg,P2O5+K2O2.18kg,N+P2O5+K2O3.85kg. 相似文献
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《Communications in Soil Science and Plant Analysis》2012,43(17-18):1881-1894
Abstract Total organic P, humic and fulvic acid‐P associations and inositol phosphates in nine volcanic soils of southern Chile were determined. The concentration of organic P (Po) ranged from 654 to 1942 ppm accounting for 49% to 64% of total soil P. Phosphorus associated to humic (HA‐P) and fulvic acids (FA‐P) accounted for 51–68% and 32–49% of Po, respectively. Inositol penta‐ and hexaphosphates represented 42% to 67% of Po suggesting that significant amounts are associated with both humic and fulvic acids. Po content was significantly correlated to organic C, total soil P and HA‐P. HA‐P and FA‐P fractions obtained from the most representative soil were examined by dyalisis and gel filtration. While approximately 96% of HA‐P presented a molecular weight higher than 100,000 daltons, 53% of FA‐P had a molecular weight under 12,000 daltons. It is suggested that these more labile organic P forms would be more easily mineralized, thus increasing the available P pool. 相似文献
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Jeffrey S. Summerhays Von D. Jolley Michael W. Hill 《Journal of plant nutrition》2017,40(20):2889-2897
Phosphorus (P) is poorly soluble in soil and has poor plant uptake efficiency. AVAIL® and Carbond P (CBP) are fertilizers that increase P-use efficiency (PUE) and yields on P limiting soils. The objectives of this study were to determine if mode of action for these products is related to physiological response, and to evaluate possible toxicity. AVAIL and CBP were compared to ammonium polyphosphate (APP) at pH 6 or 8 for hydroponically grown maize (Zea mays L.). Not surprisingly, biomass and P concentration increased with increasing P concentration of the solution. However, neither AVAIL nor CBP had any positive or adverse effects. These results, coupled with previous soil-based studies, show that the observed increase in PUE is not a physiological growth stimulant response, but rather the result of impacts on soil P solubility. Furthermore, these materials are not toxic when in direct contact with plant roots—even at relatively high concentrations. 相似文献
14.
Dhram Prakash D. K. Benbi G. S. Saroa 《Communications in Soil Science and Plant Analysis》2017,48(1):92-106
Information on phosphorus (P) release kinetics and sorption–desorption in soils is important for understanding how quickly reaction approaches equilibrium and replenishes the depleted soil solution. Laboratory experiments were conducted to study the P release and sorption–desorption kinetics in soils differing in clay, soil organic carbon (SOC), available P, and calcium carbonate (CaCO3) contents. Phosphorus release from soils proceeded in two phases: initially faster phase followed by a slower phase as equilibration progressed. Elovich equation (R2 ≥ 0.97**) described well the P release versus time data. P release coefficients for power function were significantly correlated with available P and SOC. Freundlich sorption constants increased with increase in clay and CaCO3 content. With increase in SOC and available P concentration in soils, substantial reduction in sorption constants was observed. It was concluded that for efficient P management, it is important to take into account soil texture, the existing soil P level, SOC content, and soil calcareousness. 相似文献
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P2P技术是一种新型的网络模型,分析了P2P技术的概念和工作原理,阐述了P2P技术在校园网中的应用及存在的问题和解决办法。 相似文献
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P2P技术是目前新一代网络研究的活跃领域,它引导网络计算机从集中式向分布式偏移,网络应用的核心从中央服务器向网络边缘的终端设备扩散,将P2P引入到网络教育资源建设领域,尝试解决资源共享、资源建设、信息服务的智能化等其发展中遇到的问题。 相似文献
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Pengfei Wu Guangyu Wang Taimoor Hassan Farooq Qi Li Xianhua Zou Xiangqing Ma 《Journal of Soils and Sediments》2017,17(12):2775-2785
Purpose
In order to manage Chinese fir (Cunninghamia lanceolata (Lamb.) Hook.) plantations over the long term, it is critical to understand the species’ response to intraspecific competition at sites with low phosphorus (P). The objective of the present study was to investigate the effects of neighbor competition on the growth of Chinese fir under low P conditions, as well as on the morphology and organic acid content of the root tissues.Materials and methods
We investigated the growth, dry matter accumulation, and organic acid content and type in root tips of Chinese fir cuttings in a greenhouse experiment, which was a design with three factors including competition intensity (single, mild, moderate, and severe), P supply level (0, 6, and 12 mg kg?1 KH2PO4), and competition time (50, 100, and 150 days).Results and discussion
There were no significant interaction effects between all three or any two factors on shoot growth (height or root collar diameter), biomass accumulation, or root:shoot ratio. However, the interactive effects between competition time and competition intensity on all root morphological traits were significant, as was the interaction between P supply and competition (e.g., intensity, time) on root organic acid concentration. The number of organic acid types gradually decreased from the first 50 to 150 days under no P supply and low P supply treatment. Interestingly, capric acid was detected in severe and moderate competition treatments, but not detected under mild competition or in single plant controls at low P. Also, citric acid was detected in P supply treatments (6 and 12 mg kg?1), but not detected in the no P treatment.Conclusions
Mild early-stage intraspecific competition somewhat alleviated the suppressive effect of low P supply on the height of Chinese fir. Seedlings adjusted their shoot and root growth separately to accommodate stress from low P or adjacent competition. Low P supply and competition intensity additively accelerated root volume proliferation, but interactively enhanced organic acid concentration in root tips.20.
Jeffrey S. Summerhays Von D. Jolley Michael W. Hill Curtis J. Ransom Tabitha R. Brown 《Journal of plant nutrition》2015,38(9):1359-1371
Carbond P (CBP) fertilizer often increases P uptake and crop yields in low P and organic matter soils. A glasshouse study was conducted with maize (Zea mays L.) grown in moderate or high organic matter soil with 0, 5, 15, 45, or 135 kg phosphorus pentoxide (P2O5) ha?1 applied as either ammonium polyphosphate (APP) or CBP. In the high organic matter soil, both CBP and APP fertilization resulted in similar increases in biomass yield and P concentration and uptake. This was also observed in the moderate organic matter soil for maize P concentration, but biomass yield and total P uptake were significantly greater for CBP than APP at the two lowest P rates of fertilization and significantly higher for APP than CBP at the highest P application rate. The presence of high organic matter in the soil seemed to negate the effects of the organic acid bonded P found in CBP. 相似文献