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广东不同母质水稻土供钾特性的评价 总被引:1,自引:1,他引:1
应用生物耗竭法并结合模拟试验综合评价了广东5种主要母质发育水稻土的供钾特性。研究结果表明:(1)2mol/L冷HNO3法提取的有效钾与水稻吸钾量间的相关性最好,建议用2mol/L冷HNO3法提取的钾来评价土壤的供钾状况。(2)1mol/L沸HNO3法提取的非交换性钾含量在耗竭后高于耗竭前的水平,与水稻吸钾量相关性很小或呈负相关,不适宜用来评价耗竭土壤。(3)广东5种主要母质发育的水稻土供钾能力大小顺序为:三角洲沉积物发育水稻土>花岗岩发育水稻土>砂页岩发育水稻土>石灰岩发育水稻土>玄武岩发育水稻土。该试验结果可供水稻合理施用钾肥作参考。 相似文献
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测定了具有代表性的4种母质发育、3种水育型的红壤性水稻土及起源土壤的可溶性稀土(REEs)和稀土总丰度(∑REE),分析了REEs的分布特征及与∑REE的相关,研究了经酸碱调节后土壤REEs与pH值的关系,结果表明:(1)不同母质发育的供试土壤REEs平均值依石英闪长岩母质土壤系列、凝灰岩母质土壤系列、黑云母花岗岩母质土壤系列、玄武岩母质土壤系列顺序递减。(2)供试土壤REEs与∑REE的相关不显著。(3)起源土壤剖面中REEs具有明显自上而下增大的趋势,而不同水育型水稻土剖面的REEs分布各有特征,但总的趋势是自上而下减少。(4)经酸度调节后供试土壤的REEs随着土壤pH值的提高而下降,呈显著的幂函数相关。 相似文献
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红壤性水稻土稀土元素组分分布与变异性研究 总被引:1,自引:0,他引:1
测定了具有代表性的 4种母质发育、3种水育型的红壤性水稻土及起源土壤的∑REE、∑LREE和∑HREE ,分析了其分布特点和剖面变异性 ,表明 :(1)红壤性水稻土的∑REE平均水平和离散性均大于全国水稻土平均水平 :(2 )不同母质发育的供试土壤的∑REE和∑LREE的平均水平依玄武岩母质土壤系列 >石英闪长岩母质土壤系列 >黑云母花岗岩母质土壤系列 >凝灰岩母质土壤系列顺序递减 ;(3 )土壤剖面稀土组分体系的变异程度为 :∑LREE >∑HREE >∑REE ;而在不同水育类型上则依起源土壤、潜育型水稻土、渗育型水稻土、潴育型水稻土顺序增大。 (4 )∑LREE和∑HREE在渗育型水稻土的E层和潴育型水稻土的Br层具有显著的分馏作用 相似文献
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不同水分状况及施磷量对水稻土中速效磷含量的影响 总被引:13,自引:1,他引:13
通过室内培养试验研究了不同水分(淹水和60%田间持水量)及施P量对水稻土速效P及水层含P量的影响。结果表明,无论水分状况如何,土壤速效P含量随施P量的增加而呈明显增加趋势。土壤速效P出现富集的转折点因供试土壤而异,第三纪红壤性水稻土大致为P2O560~120mg/kg,而第四纪红壤性水稻土和黄泥土为P2O5120~180mg/kg。P肥施入土壤后,水溶性P主要存在于土壤溶液中,而分布于水层中的P相对较少。但在过量施P(P2O5>180mg/kg)时,施肥后短期内(0~30天),水层中P浓度较高(0.05~0.3mg/kg),如水分管理不当,则会造成P的损失。 相似文献
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湖北省荆门市水稻土配方施肥的效果研究 总被引:6,自引:0,他引:6
选定荆门市水稻土进行效应函数法配方试验,以找出不同N、P、K用量与水稻产量的关系,明确最高施肥量和最佳施肥量,提供水稻专用配方肥的参数。试验发现,N、P、K配合后有利于促进杂交中稻的个体发育,建立良好的群体结构。在供试土壤和“汕优63”水稻上,氮是控制产量的首要因子。建议供试土壤上施肥配方为:N150∽180kg/hm^2,P20530∽45kg/hm^2,K20105∽120kg/hm^2。 相似文献
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湖北省荆门市水稻土配方施肥的效果研究 总被引:1,自引:0,他引:1
选定荆门市水稻土进行效应函数法配方试验,以找出不同N、P、K用量与水稻产量的关系,明确最高施肥量和最佳施肥量,提供水稻专用配方肥的参数。试验发现,N、P、K配合后有利于促进杂交中稻的个体发育,建立良好的群体结构。在供试土壤和"汕优63"水稻上,氮是控制产量的首要因子。建议供试土壤上施肥配方为:N150~180kg/hm2,P2O530~45kg/hm2,K2O105~120kg/hm2。 相似文献
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不同母质土壤-水稻系统Cd吸收累积特征及差异 总被引:1,自引:0,他引:1
通过选取土壤有效态镉(Cd)含量相近、母质不同的水稻土河沙泥(河流冲积物发育)和紫泥田(紫色砂页岩母质发育),添加不同浓度的外源Cd(0,0.5,1,2,5mg/kg)模拟Cd污染稻田土壤进行盆栽试验,研究不同母质稻田土壤Cd胁迫条件下水稻不同生育期对Cd吸收累积的差异,并推算出土壤Cd环境安全临界值。结果表明,水稻生育期2种土壤有效态Cd含量均在分蘖期最高,河沙泥有效态Cd含量平均为0.47mg/kg,紫泥田平均为0.36mg/kg,同一外源Cd水平下,河沙泥土壤有效态Cd含量高于紫泥田。对河沙泥而言,随着外源Cd浓度的增加,水稻总生物量呈现先增加后下降的趋势,当外源Cd浓度为1mg/kg时达到最大生物量,为47.11g/pot;而紫泥田水稻生物量呈现逐渐增加的趋势,但各处理间差异不显著(P0.05)。2种土壤中水稻糙米、谷壳、茎叶、根Cd含量均随外源Cd浓度的增加而增加,整体分布特征为根茎叶谷壳糙米,且河沙泥高于紫泥田;河沙泥水稻平均Cd累积量为51.71μg/pot,紫泥田平均Cd累积量为42.56μg/pot,2种土壤成熟期水稻Cd累积量对比分蘖期分别增加1.45,1.07倍。回归分析表明,河沙泥和紫泥田稻米Cd超标的土壤Cd安全临界值分别为2.03,3.14mg/kg。水稻对Cd的吸收累积特征及土壤Cd安全临界值因土壤母质不同而存在显著差异。 相似文献
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施氮和不同品种水稻对紫色水稻土钾素形态的影响 总被引:3,自引:1,他引:2
通过盆栽试验研究了施氮水平和不同品种水稻对四川盆地 3种典型紫色水稻土 5种钾形态的影响以及各种土壤钾形态对水稻钾素营养的贡献。结果表明 ,4个紫色水稻土供钾能力均属中下水平 ,全钾含量为 1.29%~2.62% ,其中矿物钾量平均占 96.82% ,速效钾和非交换性钾仅平均占 0.62%和 2.56% ,土壤供钾能力以中性紫色水稻土 石灰性紫色水稻土 酸性紫色水稻土。施氮 (N 0~ 150mg/kg)促进 4个紫色水稻土钾素的释放 ,提高水稻对非交换性钾和矿物钾的吸收利用 ,使矿物钾和非交换性钾的贡献占植株吸钾的 80.3% ,速效钾仅为 19.7%。中性紫色土供试 4个品种水稻的吸钾能力为开优 5号 汕优 63Ⅱ优 6078引佳 1号。施氮后4个品种水稻吸自非交换性钾和矿物钾量平均占植物吸钾量的 66.9% ,以施中氮 (N 150mg/kg)时植株吸钾量最高 ;而低氮或高氮水平都不利于植物对钾的吸收和土壤钾的释放 相似文献
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大豆品种耐低磷和对磷肥效应的遗传差异 总被引:26,自引:4,他引:22
大豆不同品种对低磷胁迫和磷肥效应有显著的遗传差异。低磷胁迫下,苗期植株叶片酸性磷酸酶活性(APA)和叶面积与品种的子粒产量呈极显著相关;APA、叶面积、干物质量和氮积累量与生物学产量呈显著或极显著相关。但在施磷条件下,它们之间则无相关关系。这表明APA、叶面积、干物质量和氨积累量可作为耐低磷基因型的筛选指标。试验表明,耐低磷能力弱的品种对磷肥反应更为敏感。在低磷和施磷条件下产量均较高的品种也是存在的,它们对不同的磷素营养环境有着广泛的适应性,进一步挖掘这类基因型很有意义。 相似文献
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广东大豆地方种质磷效率特性研究Ⅰ.大豆基因型磷效率特性差异及其与土壤有效磷含量的关系 总被引:4,自引:0,他引:4
在低磷红壤上,对原产广东省的大豆(Glycine max (L.) Merrill)基因型磷效率与其来源地土壤有效磷含量的关系进行研究.结果表明:植株磷素吸收量相对值(RVPPU)不仅可以反映大豆对低磷红壤生长适应性,而且可以反映大豆基因型磷效率特性,RVPPU是衡量田间生长适应性和磷效率特性的较好指标.RVPPU较大的大豆基因型,其对低有效磷红壤环境适应性较好,磷效率特性较佳;反之,亦然.不同大豆基因型,具有不同的磷效率特性.磷效率特性的形成与土壤有效磷含量有关.土壤中低有效磷含量与较佳的磷效率特性形成有关,长期生长在有效磷含量较低的砖红壤、赤红壤、红壤和紫色土上的大豆基因型具有较佳的磷效率特性;而长期生长在有效磷含量较高的水稻土、潮土上的大豆基因型其磷效率特性较差.大豆基因型较佳的磷效率特性是其长期在低有效磷土壤环境下进化形成的. 相似文献
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土壤对磷的吸附与解吸及需磷量探讨 总被引:5,自引:0,他引:5
本文探讨了不同质地土壤对磷的吸附与解吸。根据Langmuir方程式求出不同土壤对磷的最大吸附量。影响磷吸附的土壤理化性质主要为粘粒含量、碳酸盐含量和有效磷含量。以Freundhich方程式X=acb中的c值为每克土中含P0.2μg时而计算出的X量可做为施磷量的依据。 相似文献
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Hongen Liu Chengxiao Hu Xiaoming Hu Zhaojun Nie Xuecheng Sun Qiling Tan 《Journal of plant nutrition》2013,36(12):1751-1760
A hydroponic trial was conducted to assess interaction of molybdenum (Mo) and phosphorus (P) on uptake and translocation of P and Mo by Brassica napus. Molybdenum was applied at four rates (0, 0.01, 0.1 and 1 mg L?1) and P at three rates (1, 30, and 90 mg L?1) in nutrient solution. The results indicated that P increased shoot growth and 0.01 mg L?1 Mo improved the growth of shoots and roots. Molybdenum increased shoot P uptake and root P concentration and uptake when higher P was provided, and had a stimulating effect on P translocation from shoots to roots. P increased shoot Mo concentration and uptake, decreased those in roots, and enhanced Mo transport from roots to shoots. These results implied that both Mo and P had beneficial effects on Mo and P absorption and translocation and co-application of them were necessary to promote growth and utilization of Mo and P for Brassica napus. 相似文献
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GENOTYPIC DIFFERENCES IN PHOSPHORUS UPTAKE AND UTILIZATION OF WATERMELON UNDER LOW PHOSPHORUS STRESS
Xiangxiang Meng Na Liu Li Zhang Jingxua Yang Mingfang Zhang 《Journal of plant nutrition》2014,37(2):312-326
In this study, seven watermelon (Citrullus lanatus) cultivars were tested in solution culture experiment with limiting and ample phosphorus (P) supply to evaluate P uptake and utilization of watermelon under low P stress. Different genotypes showed considerable diversity in terms of biomass accumulation, P uptake, P utilization, root morphological parameters and photosynthetic parameters under low P stress. At low P supply, genotype XN8 and ZCHY were clearly superior to other genotypes in terms of total dry matter yield. The genotype ZJ has the highest P uptake ability, while the genotype XN8 has the highest P efficiency ratio and P utilization efficiency among the seven genotypes under low P stress. The P uptake ability of these genotypes was related significantly and positively to root morphological parameters and photosynthesis parameters under low P stress, the P utilization efficiency showed significant and positive correlation with total dry matter. Results showed existence of genetic differences among watermelon genotypes with regard to P absorption and utilization. The seven genotypes were classified into four groups: efficient responsive (ER), inefficient responsive (IER), efficient non-responsive (ENR) and inefficient nonresponsive (IENR) according to P utilization efficiency under low P stress and dry matter at high P supply. XN8 was identified as ER, and ZCHY was identified as ENR, which may be valuable resources for watermelon production in different soil with low P stress. 相似文献
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The effect of three arbuscular mycorrhizal (AM) fungi on phosphorus (P) nutrient activation and acquisition by maize from spatially heterogeneous sand was investigated using dual-mesh packages enriched with different P concentrations and compared with non-mycorrhizal cotrols. As would be expected the AM fungi significantly enhanced leaf photosynthetic rate and the biomass and P concentrations in shoots and roots. All three fungi (Glomus intraradices, Glomus mosseae and Glomus etunicatum) displayed the capacity to dissolve inorganic P and promoted P nutrient availability in the packages (P patches). G. etunicatum showed the largest effect comparing with Glomus intraradices and Glomus mosseae, particularly in packages with high concentrations of P. Possible mechanisms involved include the acidification of the P patches by the AM fungi, promotion of the dissolution of the P, and more marked effects of the three fungal isolates with increasing enrichment of P in the patches. Inoculation with G. etunicatum resulted in greater acidification compared to the other two fungi. We conclude that AM fungi can promote P availability by acidifying the soil and consequently exploiting the P in nutrient patches and by facilitating the growth and development of the host plants. 相似文献
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Jian Jin Xiaobing Liu Guanghua Wang Xueli Chen Zhenhua Yu S. J. Herbert 《Journal of plant nutrition》2013,36(10):1578-1589
Root growth systems are hierarchical and sensitive to nutrient availability in soil. Lateral roots are an important component of plant root morphology. Phosphorus (P) availability regulates root branching in plants such as Arabidopsis thaliana, barley (Hordeum vulgare), and rice (Oryza sativa L.). However, little information is available for soybean (Glycine max L.). A pot experiment was conducted to determine the morphological characteristics of lateral roots of different orders and P acquirement of soybean seedlings under three levels of applied P of 0, 50 and 100 mg P kg?1 soil. Root length, an important parameter of root characteristics, differed in four orders. Lateral roots in the second and third order contributed 39.4 and 34.2% of total root length, respectively. Moreover, since most of lateral roots were fine roots (roots having a diameter 0.5 mm), fine roots had a frequency distribution of 58.5 to 61.4% in the second and third orders. Phosphorus application significantly increased dry weight, total length and number of lateral roots in the four orders with the ranking of fourth > third > second > first (P ≤ 0.05), but did not affect the average length of a lateral root. Phosphorus application reduced the frequency distribution of fine lateral roots in the first and second orders, while increased in the third and fourth orders (P ≤ 0.05). Compared with the medium P application (50 mg P kg?1 soil), the high P application (100 mg P kg?1 soil) inhibited lateral root growth with decreases in root dry weight, root length and root number at all orders. Phosphorus concentration and content increased with the increase in P application. The correlation between characteristics of lateral root and P status in the plants varied among root orders. The length of lateral roots from first to third order had a positive correlation with P concentration in root and shoot, and had a good relationship with P content. Lateral root numbers at the second, third and fourth orders were significantly correlated with P content while no correlation was found with the average length of a lateral root. It is proposed that the main effect of P application appears to be on the lateral root initiation rather than on lateral root elongation, and P favors the lateral root formation of the higher orders. The total length and number of lateral root at the second and third orders play a more important role in P content than those at other lateral root orders. 相似文献