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1.
不同N水平紫色土上不同水稻品种吸收N、K的动力学 总被引:1,自引:0,他引:1
A pot experiment was conducted to study the effect of nitrogen fertilizer on nitrogen and potassium uptake by four rice cultivars. Results showed that the quadratic parabola relationship between biomass of rice and nitrogen levels was observed, with the maximum biomass at the nitrogen level of 150 mg kg-1. The rates of nitrogen and potassium uptake by the four rice cultivars depended on growth stage and rice cultivar with the maximum rate of N in Shanyou-63 and maximum rate of K in Kaiyou-5 (hybrid rice), respectively. The kinetics of nitrogen and potasssium uptake by rice plant could be quantitatively described by the following equations: y = a + blogt, y = ab + t1/2 and y = ae-bt. The b value in the equations was correlated significantly to the rates of nitrogen and potassium uptake (NR and KR, r = 0.901**~0.990**), suggesting that the b value could be used to distinguish the index of nitrogen and potassium uptake capacity of rice. The maximum values of nitrogen uptake by plant (b value) and apparent recovery of fertilizer nitrogen were observed in Shanyou-63, and the minimum value in Eryou-6078. However, the capacity of potassium uptake (b value) by Kaiyou-5 ranked first and that by Shanyou-63 second. There was a significant linear relationship between nitrogen level and nitrogen uptake by rice, but a quadratic parabola relationship was found between nitrogen level and patassium uptake by rice. The application of nitrogen fertilizer decreased the ratios of potassium to nitrogen uptake by rice plant. The greatest reduction in the ratio was observed at high nitrogen level, and the least reduction was found in Kaiyou-5 and Shanyou-63 due to their greater ability to absorb potassium. 相似文献
2.
Salt-affected soils are agricultural and environmental problems on a global scale. Plants suffer from saline stresses in these soils and show nitrogen (N) deficiency symptoms. However, halophytes grow soundly under saline conditions. In order to clarify the N nutrition of the halophyte Salicornia bigelovii, it was grown at several N levels (1, 2, 3, and 4 mmol L-1), supplied in the form of NO3- or ammonium (NH4+), under high NaCl conditions (200 mmol L-1). NH4+-fed plants showed better growth than NO3--fed plants at 1-3 mmol L-1 N, and plants in both treatments showed the same growth at 4 mmol L-1 N. Nitrogen contents in NO3--fed plants increased with the N concentrations in solution; competitive inhibition of NO3- absorption by Cl- was observed under lower N conditions. In addition, shoot dry weight was significantly correlated only with shoot N content. Therefore, growth of NO3--fed plants was regulated by N absorption. Inc ontrast, N contents of shoots in NH4+-fed plants did not change with N concentration. Shoot Na content decreased with increasing N concentration, while K content increased. Dry weight was highly correlated only with K content in NH4+-fed plants. These observations indicated that growth of NH4+-fed plants was mainly regulated by K absorption. 相似文献
3.
水盐胁迫下番茄叶片对温度、湿度的光合反应 总被引:4,自引:1,他引:3
Greenhouse tomato plants (Lycopersicon esculentum Mill cv. Capello) were grown on peat-based substrate and treated with high (4.5 mS cm-1) and low (2.3 mS cm-1) nutrient solution electric conductivity (EC) under high and low substrate water contents. Four weeks after the beginning of the treatments, photosynthesis (PN) was measured under different humidity and temperatures to examine the interactive effects with rhizosphere salinity and water deficit. A rectangular hyperbolic model fitted the light-photosynthesis curve. Photosynthetic capacity (PC) was decreased but quantum yield (YQ) was increased by rhizosphere salinity caused by high EC. PN was decreased by low humidity only in high EC- and/or water-stressed plants. Under high photosynthetic photon flux (PPF), low humidity induced PC decline in water-stressed plants and PN oscillation in high-EC-treated plants. PN increased steadily as the leaf temperature changed from 18 ℃ to 23 ℃ and then decreased steadily from 23 ℃ to 38 ℃. At 34 ℃, PN decreased significantly in water-stressed plants. Dark respiration (RD) increased in an exponential manner as the leaf temperature changed from 18 ℃ to 38 ℃ to an extent about ten times higher under 38 ℃ than under 18 ℃. Our data suggested that PN decrease under high temperature was attributed, at least in part, to the increased RD. RD in high EC- and/or water-stressed plants was higher than that in the plants of control under lower temperature but lower than that in the plants of control under high temperature. The analysis of stomatal and mesophyll conductance showed that low humidity effect was mainly through stomatal response while temperature effect was mainly through biochemical functions. The result showed that environmental stresses affected PN in an additive or synergistic manner. 相似文献
4.
A sand culture experiment was conducted to determine the effects of different seawater (5% and 10%) treatments on plant growth, inorganic ions, indole alkaloid concentrations and yields of Catharanthus roseus, in an effort to increase the alkaloid yield by artificial cultivation. The total fresh and dry weights and tissue K+ concentrations decreased, but Na+ concentrations increased in the plant roots, stems and leaves of C. roseus under seawater stress as compared to the control. The concentrations and yields of vindoline, catharanthine, vinblastine and vincristine increased under seawater stress. The concentrations and yields of these alkaloids were higher in 5% seawater-treated plants than those in the 10% seawater-treated plants. Considering the industrial production, 5% seawater treatments could reduce the cost of producing alkaloid. In the control plants, the highest alkaloid concentrations reached a peak at 100 days after planting, suggesting that plant harvest must be optimized in terms of growth duration. 相似文献
5.
保护地蔬菜轮作体系中两种不同复合肥对产量的影响及其氮素动态特征 总被引:1,自引:1,他引:1
Yield and N uptake of tomato (Lycopersicum esculentum Mill.) and pepper (Capsicum annuum L.) crops in five successive rotations receiving two compound fertilizers (12-12-17 and 21-8-11 N-P2O5-K2O) were studied to determine 1) crop responses, 2) dynamics of NO3-N and NH4-N in different soil layers, 3) N balance and 4) system-level N efficiencies. Five treatments (2 fertilizers, 2 fertilizer rates and a control), each with three replicates, were arranged in the study. The higher N fertilizer rate, 300 kg N ha-1 (versus 150 kg N ha-1), returned higher vegetable fruit yields and total aboveground N uptake with the largest crop responses occurring for the low-N fertilizer (12-12-17) applied at 300 kg N ha-1 rather than with the high-N fertilizer (21-8-11). Ammonium-N in the top 90 cm of the soil profile declined during the experiment, while nitrate-N remained at a similar level throughout the experiment with the lower rate of fertilizer N. At the higher rate of N fertilizer there was a continuous NO3-N accumulation of over 800 kg N ha-1. About 200 kg N ha-1 was applied with irrigation to each crop using NO3-contaminated groundwater. In general, about 50% of the total N input was recovered from all treatments. Pepper, relative to tomato, used N more efficiently with smaller N losses, but the crops utilized less than 29% of the fertilizer N over the two and a half-year period. Local agricultural practices maintained high residual soil nutrient status. Thus, optimization of irrigation is required to minimize nitrate leaching and maximize crop N recovery. 相似文献
6.
LONG Xiao-Hu HUANG Zeng-Rong HUANG Yu-Ling KANG Jian ZHANG Zhen-Hu LIU Zhao-Pu 《土壤圈》2010,20(4):515-524
To explore genetic variability for two Jerusalem artichoke (Helianthus tuberosus) cultivars, N1 (the sixth-generation cultivated with 75% seawater irrigation for six years) and N7 (a general variety), a experiment was conducted to study the changes in physiological attributes under different concentrations (0%, 10% and 25% of seawater concentration in greenhouse and 0%, 30% and 50% of seawater concentration in the field) of seawater salinity stress. In the greenhouse experiment, decreases of dry growth rate, but increases of dry matter percentage and membrane injury occurred in both the genotypes at 10% and 25% seawater treatments, although lesser cell membrane damage was observed in N1 than N7. N1 accumulated greater contents of Na+, Cl-, soluble sugar and proline in leaves compared with N7. In the field experiment, the yields of shoot, root and tuber, and the contents of total-sugar and inulin in tubers of N1 were higher than those of N7. Lesser degree of salt injury in N1 indicated that the relatively salt-tolerant cultivar had higher K+/Na+ ratio, lower Na+/Ca2+ ratio, and the salt-induced enhancement of osmotic adjustment. 相似文献
7.
黄土高原半干旱区不同土地利用下的土壤有机碳、碳组分和土壤营养 总被引:5,自引:0,他引:5
Cropland (CP), native grassland (NG) and two shrub land treatments which were converted from cropland in 1985:seabuckthorn (Hippophae rhamnoides L. ) (ST), and branchytamarisk (Tamarix ramosissima) (BT) were investigated to evaluate effects of land use conversion on soil organic carbon (SOC) and soil nutrients in the semi-arid region of the Loess Plateau of China. Total organic carbon (TOC), light fraction organic carbon (LFOC), heavy fraction organic carbon (HFOC), total N (TN), nitrate nitrogen (NO3--N) and nitrite nitrogen (NO2--N), ammonium nitrogen (NH4+-N), total P, and available P (AP) were measured. The results showed that SOC in NG, ST and BT were 12.7%, 27.7% and 34.8% higher than that of the cropland, respectively. LFOC, light fraction (LF) dry matter, ratio of TOC to TN (C/N) and the ratio of TOC to AP (C/P) were higher in the shrub land or native grassland than in the cropland. Cropland had the highest TN, the sum of NO3--N and NO2--N, TP and AP due to the use of chemical fertilizers. TOC significantly correlated with LFOC, HFOC and C/N. LFOC significantly correlated with dry matter of the LF and C/N. TN, the sum of NO3--N and NO2--N and AP were significantly negatively correlated with TOC and LFOC. Therefore, land use conversion from cropland to shrub land, or maybe grassland, contributed to SOC sequestration and improved soil nutrients stabilization. 相似文献
8.
上海郊区园艺土壤氮素的生物形成动态变化 总被引:3,自引:0,他引:3
Dissolved organic nitrogen (DON) represents a significant pool of soluble nitrogen (N) in soil ecosystems. Soil samples under three different horticultural management practices were collected from the Xiaxiyang Organic Vegetable and Fruit Farm, Shanghai, China, to investigate the dynamics of N speciation during 2 months of aerobic incubation, to compare the effects of different soils on the mineralization of 14C-labeled amino acids and peptides, and to determine which of the pathways in the decomposition and subsequent ammonification and nitrification of organic N represented a significant blockage in soil N supply. The dynamics of N speciation was found to be significantly affected by mineralization and immobilization. DON, total free amino acids, and NH4+-N were maintained at very low levels and did not accumulate, whereas NO3--N gradually accumulated in these soils. The conversion of insoluble organic N to low-molecular-weight (LMW) DON represented a main constraint to N supply, while conversions of LMW DON to NH4+-N and NH4+-N to NO3--N did not. Free amino acids and peptides were rapidly mineralized in the soils by the microbial community and consequently did not accumulate in soil. Turnover rates of the additional amino acids and peptides were soil-dependent and generally followed the order of organic soil > transitional soil > conventional soil. The turnover of high-molecular-weight DON was very slow and represented the major DON loss. Further studies are needed to investigate the pathways and bottlenecks of organic N degradation. 相似文献
9.
两种矿山生态型香薷对铜的吸收、分布和积累特性研究 总被引:6,自引:3,他引:6
Two ecotypes of Elsholtzia, Elsholtzia splendens and E. argyi, are dominant plants growing on Cu and Pb-Zn smelters, respectively. Samples of the two ecotypes and the corresponding soils from fields of a copper mining area and a Pb-Zn mining area of Zhejiang Province, China, were analyzed to investigate Cu or Zn tolerance of these two ecotypes. Effects of nine Cu levels (0, 5, 10, 20, 40, 80, 160, 240 and 320 mg Cu L-1 as CuSO4·5H2O) on growth and uptake, translocation and accumulation of Cu in these two ecotypes were examined in a solution culture experiment. The experimental results showed that dry weights (DW) of shoots and roots were depressed, and growth of E. splendens was less depressed than that of E. argyi when treated with ≥ 5 mg Cu L-1. Concentrations of Cu in shoots of E. splendens and E. argyi exceeded 1 000 mg kg-1 DW at ≥ 40 mg Cu L-1. The maximum Cu accumulated in the shoots of Cu-treated E. splendens and E. argyi reached 101 and 142 μg plant-1. Furthermore, analysis of plant samples from the fields showed that these two ecotypes can tolerant excess heavy metals and produced high dry matter, and E. splendens can accumulate 11.7 mg Cu plant-1 grown on the Cu smelter. Therefore, E. splendens and E. argyi could be good plants for phytoremediation. 相似文献
10.
The effiects of NaCl salinity and NO3- on growth, root morphology, and nitrogen uptake of a halophyte Suaeda physophora were evaluated in a factorial experiment with four concentrations of NaCl (1, 150, 300, and 450 mmol L-1) and three NO3- levels (0.05, 5, and 10 mmol L-1) in solution culture for 30 d. Addition of NO3- at 10 mmol L-1 significantly improved the shoot (P < 0.001) and root (P < 0.001) growth and the promotive effect of NO3- was more pronounced on root dry weight despite the high NaCl concentration in the culture solution, leading to a significant increase in the root:shoot ratio (P < 0.01). Lateral root length, but not primary root length, considerably increased with increasing NaCl salinity and NO3- levels (P < 0.001), implying that Na+ and NO3- in the culture solution simultaneously stimulated lateral root growth. Concentrations of Na+ in plant tissues were also significantly increased by higher NaCl treatments (P < 0.001). At 10 mmol L-1 NO3- , the concentrations of NO3- and total nitrogen and nitrate reductase activities in the roots were remarkably reduced by increasing salinity (P < 0.001), but were unaffected in the shoots. The results indicated that the fine lateral root development and effective nitrogen uptake of the shoots might contribute to high salt tolerance of S. physophora under adequate NO3- supply. 相似文献
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ACC对不同氮效率油菜生长后期硝态氮再利用的调控机理 总被引:1,自引:1,他引:0
13.
不同施氮水平下不同氮利用效率小黑麦植株氮素积累分配特性 总被引:3,自引:0,他引:3
采用土培盆栽试验,以小黑麦氮高效利用品种‘Clxt82’、‘PI429186’和氮低效利用品种‘Clxt74’为材料,研究0(不施氮)、0.033 g(N)·kg-1(低氮)和0.066 g(N)·kg-1(正常氮)3个不同施氮水平下,各生长时期氮素在器官间和器官内不同功能性氮素分配的特性。结果表明:氮高效利用品种在氮素不足的条件下优势更明显,抽穗期高效利用品种和低效利用品种间生物量的差异随施氮量的增加而减小,在不施氮、低氮和正常供氮时‘Clxt82’、‘PI429186’地上部生物量分别为‘Clxt74’的1.55倍、1.19倍、1.06倍和1.79倍、1.35倍、1.30倍。不同生育时期,小黑麦氮积累量均随施氮量的增加而显著增加,低氮和正常供氮处理,在分蘖期、拔节期氮高效利用品种氮积累量均显著高于低效利用品种,而在抽穗期差异则不大。随施氮量的增加,氮素在叶片和穗部的分配比例减小,在茎的分配比例增大;分蘖期和拔节期,氮高效利用品种茎中氮素分配比例小于低效利用品种,叶片氮素分配比例则大于低效利用品种。抽穗期氮高效利用品种穗部氮素分配比例大于低效品种,而叶部则相反。各生育时期各器官不同形态氮素含量总体上随施氮量的增加而增加。不施氮和低氮处理,拔节期氮高效品种‘Clxt82’、‘PI429186’叶片营养性氮含量是低效品种‘Clxt74’的1.31倍、1.76倍和1.12倍、1.35倍,而结构性氮含量则是低效品种的86.12%、64.01%和80.82%、71.51%;抽穗期氮高效品种‘Clxt82’、‘PI429186’叶片营养性氮含量是低效品种‘Clxt74’的1.01倍、1.11倍和1.04倍、1.13倍,结构性氮含量为低效品种‘Clxt74’的74.99%、63.08%和75.78%、62.84%;各时期品种间功能性氮素含量差异不大。低氮条件下氮高效利用品种通过降低结构性氮素含量、增加营养性氮素含量来满足氮素的利用和体内循环。 相似文献
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拟南芥幼苗对高NH4+响应的特征及不同生态型间的差异 总被引:2,自引:0,他引:2
通过培养基和水培法分析了不同浓度NH+^4处理对苗期拟南芥根系特征的影响,比较了不同生态型拟南芥苗期根形态及生理的差异。结果表明,拟南芥苗期的主根长、侧根长、根表面积,均随NH4^+浓度增高逐渐降低;而根平均直径随NH4^+浓度增高先变粗后变细。不同生态型拟南芥对高浓度NH4^+的响应差异显著,而对等浓度K^+的响应没有观察到与NH4^+的类似的毒害作用及生态型间的差异。应用差异显著的典型生态型(耐NH4^+型Col-0和NH4^+敏感型JA22)进一步研究表明,NH4^+毒害对Col-0根长的抑制作用显著小于JA22,对Col-0平均根直径的促进作用也显著小于JA22,但对二者的根表面积的抑制没有显著性差异;30mmol L^-1 NH4^+处理,Col-0的地上部干重显著高于JA22,叶绿素含量却显著低于JA22,二者的含水量差异不显著;Col-0对2mmol L^-1 NH4^+的净吸收速率是JA22的3倍多。因此高浓度NH4^+抑制苗期拟南芥的生长基本上不是根际酸化、缺NO3^-、高离子强度或对NH4^+的高吸收等因子所致。 相似文献
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低氮胁迫下水稻根系的发生及生长素的响应 总被引:5,自引:0,他引:5
采用水培实验,研究了5个氮(N)浓度下(0.01~5 mmol L-1)水稻的生物量、体内氮浓度、根系发育、体内生长素浓度以及生长素外流蛋白OsPIN家族基因的表达情况。结果表明,与正常供氮水平(2.5mmol L-1)相比,低氮(0.01 mmol L-1)胁迫下水稻根冠比增加28%,地上部全氮浓度降低约20%,根系全氮浓度降低约33%,种子根长度增加25%,种子根上的侧根密度降低26%,倒一叶中的生长素含量增加140%,而根茎结合处和根系的生长素浓度分别下降22%和60%;RT-PCR的结果表明,低氮(0.01 mmol L-1)胁迫下水稻根系中OsPIN1a-b、OsPIN2、OsPIN5a-b和OsPIN9基因表达显著下调;而外源生长素α-萘乙酸(NAA)和生长素极性运输抑制剂1-萘氨甲酰苯甲酸(NPA)的施加均能影响到水稻种子根长和种子根上的侧根密度。由此推论,低氮胁迫下水稻体内生长素从倒一叶到根系极性运输减少是水稻根系对低氮胁迫响应的生理机制之一。 相似文献
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不同氮浓度对温室番茄生长发育和叶片光谱特性的影响 总被引:8,自引:2,他引:6
营养液培养法研究不同氮浓度对温室番茄的生长发育及叶片光谱特性的影响。结果表明,在01~5 mmol/L范围内,随着营养液中氮浓度的增加,番茄的叶面积指数、株高、叶片数、花穗数、产量和叶片的吸光度都增大,但是超过一定的范围,植株的生长和发育均会受到抑制,说明适宜的氮素促进了植株的生长和发育。其中,处理N15的叶面积指数达到了3.0,叶片数和花穗数分别是26.7和7.0,均高于其它处理。不同处理间番茄产量均存在极显著的关系,以N15处理最高,N5的最低。从叶片的光谱图中可提取出与叶绿素有关的特征波段。在本试验条件下,番茄水培时营养液适宜的氮浓度为15 mmol/L。 相似文献
18.
Plants show different growth responses to N sources supplied with either NH4+ or NO3-. The uptake of different N sources also affects the rhizosphere pH and therefore the bioavailability of soil phosphorus, particularly in alkaline soils. The plant growth, P uptake, and P availability in the rhizosphere of oat (Avena nuda L.) grown in hydroponics and in soil culture were investigated under supply with sole NH4+-N, sole NO3--N, or a combination. Sole NO3--fed oat plants accumulated more biomass than sole NH4+-fed ones. The highest biomass accumulation was observed when N was suppliedw ith both NH4+-N and NO3--N. Growth of the plant root increased with the proportion of NO3- in the cultural medium. Better root growth and higher root/shoot ratio were consistently observed in NO3--fed plants. However, root vigor was the highest when N was supplied with NO3-+NH4+. NH4+ supply reduced the rhizosphere pH but did not affect P uptake by plants grown in soils with CaHPO4 added as P source. No P deficiency was observed, and plant P concentrations were generally above 2 g kg-1. P uptake was increased when N was supplied partly or solely as NO3--N, similarly as biomass accumulation. The results suggested that oat was an NO3--preferring plant, and NO3--N was essential for plant growth and the maintenance of root absorption capacity. N supply with NH4+-N did not improve P nutrition, which was most likely due to the absence of P deficiency. 相似文献