水稻对低磷反应的基因型差异及其生理适应机制的初步研究

选取构建水稻分子连锁图谱的两个亲本ＪＸ１７和ＺＹＱ８为材料,在３低磷胁迫下,对磷营养效率有关指标进行分析,结果表明,ＪＸ１７在与磷吸收效率有关的生理指标,如根干重、根分泌质子、根分泌有机酸等方面,都明显优于ＡＹＱ８,说明ＪＸ１７表现较高的相对干物重,低磷胁迫反应不敏感。     

低磷胁迫下木豆利用磷的基因型差异及其机制

以木豆[Cajanus Cajan(L.)Millsp]MD2、MD5、MD7为材料,采用水培试验方法研究了木豆对磷的吸收、利用的基因型差异及其机理。结果表明:低磷(P1 μmol·L-1)胁迫下,木豆对磷素的吸收和利用效率存在明显的基因型差异,其中MD2、MD7属于磷素吸收、利用效率较强的基因型,而MD5为磷素效率较低的基因型。低磷培养16d后,磷高效的基因型的根/冠比显著增加,根分泌的酸性磷酸酶(APA)活性较高,说明木豆对磷素的吸收效率与植株的根冠比及根分泌的酸性磷酸酶活性有关。在低磷胁迫下,虽然MD7、MD2的含磷量较低,但是磷素利用效率和根尖中APA活性较高,说明根中高APA活性是磷利用效率高的重要原因之一。     

低磷胁迫下云南稻形态性状的氮肥反应

采用盆栽试验每份材料栽2桶,每盆装4 kg低磷酸性红壤(速效磷2.53 mg·kg-1、速效氮156.7 mg·kg-1和pH=6.03),设置不施氮肥(速效氮156.7 mg·kg-1)和施氮肥(速效氮490.0 mg·kg-1)两种处理对539份云南稻核心种质17个形态性状及其相对指标,研究低磷胁迫下云南稻形态性状的氮肥效应结果表明:总体上低磷胁迫下云南稻核心种质籼稻氮效反应明显比粳稻敏感;按氮反应相对指标将云南稻种17形态性状划分为氮反应的强敏感、中敏感、弱敏感和不敏感型四种类型;揭示了低磷胁迫下云南稻种氮高效鉴定指标以相对穗干质量和相对总干质量为主,相对穗长、秆干质量、地上干质量、根干质量和茎蘖数可作为参考指标,其中穗干质量为氮反应的强敏感型,总干质量、地上干质量、秆干质量和茎蘖数属中敏感型,根干质量属弱敏感型和穗长属不敏感型.另外,低磷胁迫下云南稻种8个对氮反应敏感相对性状无论是在539份云南稻核心种质及其籼粳亚种间,还是在五个稻作区间总趋势是一致的;既证实了该文提出的低磷胁迫下8个氮反应敏感指标性状是十分可靠的,又揭示了低磷胁迫下5大稻作区氮反应的生态差异和土攘类型多样性是云南成为亚洲栽培稻籼粳分化中心之一的驱动力.     

水稻磷效率差异的生理生化特性

以磷效率差异显著的IR71379—2B—10—2—3-1(磷低效型)、IR7133l-2B-2-1(中间型)及IR74(磷高效型)3个品种为供试材料，采用水培法研究了它们对磷的吸收效率、运输效率及植株体内磷的利用效率，进而研究了其对低磷胁迫的根系形态学和生理生化机制的适应性反应．结果表明：水稻磷效率的高低是由基因型对磷的吸收效率，运输效率及利用效率综合作用的结果．磷高效基因型IR74和磷效率表现为中间型的IR71331-2B-2-1具有高的磷吸收效率．旺盛的根系生长，高的根系活力，Km、Cmin小，Imax大及相对酸性磷酸酯酶(APase)活性高等是水稻对磷高效吸收的特征．但品种不同特征也有别，本试验中的IR74对磷高的吸收效率主要是由于根系生长旺盛，根系吸收面积大所致，而IR71331-2B-2-1高的磷吸收效率则主要缘于根系活力强，Imax大．低磷胁迫下，叶片中核糖核酸酶的活性也大大升高，约是对照的10～15倍，但品种间无显著差异．图2表6参21     

不同磷浓度下水稻短根突变体与野生型对五价砷吸收和转运的差异

为研究水稻根形态及磷营养状况对水稻吸收和转运五价砷的调控作用,采用水培的方法,研究了在不同外部磷浓度(0、10、50、150、300μM KH2PO4)下水稻(Oryza sativa L.)短根突变体与野生型短期内对五价砷(10μM Na3AsO4)吸收和转运的差异.结果表明,水稻根形态(短根突变体与野生型)和磷营养状况均能对水稻吸收和转运五价砷产生显著影响:1)磷能竞争性抑制水稻对五价砷的吸收,随营养液中磷浓度的增加,水稻地上部和地下部五价砷含量、单位根干重砷吸收量(根系砷吸收能力)均显著降低;2)水稻短根突变体对五价砷的吸收能力低于野生型,但转运能力高于野生型.     

磷水平对不同耐低磷水稻苗根系生长及氮、磷、钾吸收的影响

选取3个耐低磷水稻基因型99011、580和99112及1个磷敏感基因型99056为材料，采用营养液培养，比较了它们在不同磷水平下苗期根系的生长状况及对氮、磷、钾的吸收情况，结果表明，耐低磷基因型适应低磷的能力较强，它们具有较长的根系、较大的根体积和根干重，其中99011和580表现尤为突出，且它们的根系受磷水平变化的影响明显小于敏感基因型99056；0．081～0．161mmol／L的磷处理更有利于耐低磷基因型根系的发育，并且促进氮和钾的吸收，此时，植株能够吸收较正常磷处理更多的氮和钾；而磷敏感基因型99056吸收氮和钾的量随供磷水平的下降而减少，并且吸收磷的总量受磷水平变化的影响显著较3个耐低磷基因型大。     

磷胁迫对水稻基因型根系形态及吸收铁锰铜锌的影响

采用营养液培养方法研究了缺磷胁迫下4种水稻基因型(90-90—1、金23A、90-68-1、CDR22)的根系形态变化情况及其吸收微量元素铁、锰、铜、锌的影响。结果表明，(1)磷胁迫下，每个基因型在磷胁迫下其根系形态发生了明显变化、如根长、根冠比均呈增加趋势，并且根表有红棕色铁氧化物膜包被。(2)磷胁迫下根系形态的变化影响了水稻对生长介质中铁、锰、铜、锌的吸收：正常水稻植株中铁、锰、锌的含量高于磷胁迫植株，其中磷营养状况对水稻吸收铁、锰影响最明显；而磷营养状况对水稻植株铜含量的影响与铁、锰、锌正好相反，且影响程度较小。     

根系分泌物及其在植物营养中的作用

论述了根系分泌物的种类和影响因素，根系分泌物在植物营养中的调节作用、异种克生作用，根系分泌物与根际微生物的相互作用。在铁胁迫条件下，许多高等植物都能产生一系列生理和形态方面的适应性反应，禾本科植物通过根际特定分泌物——麦根酸类物质来自动调节其体内的铁营养状况；在磷胁迫条件下，根系分泌的低分子有机酸种类主要有柠檬酸、草酸、酒石酸和苹果酸，它们在植物根际的富集能明显促进土壤中磷的释放，提高作物对磷的吸收，缓解植物的磷胁迫；在锌胁迫条件下，双子叶植物的根系分泌物对锌的活化作用不明显，而禾本科植物的根系分泌物可以活化石灰性土壤中难溶性锌。     

土壤磷素解吸模型及其特征值的作物效应

土壤有效磷数量和强度及其缓冲系数是评价土壤磷素供应能力的重要指标。通过解吸实验、盆栽和田间试验研究土壤磷解吸特性及其与供试蔬菜的效应。38个磷素解吸实验表明,土壤镉解吸模型的修正式能很好地模拟土壤磷素解吸动态特征,有32个回归模型达到显著水平。土壤磷解吸模型可同时求得表征土壤磷有效性的磷可解吸数量Q和土壤溶液初始磷浓度Cli及其缓冲系数b。盆栽试验表明,土壤磷解吸特征值Q和Cli与空心菜(Iponoea aqatica)和菜心(Brassica parachinensis)吸P量有显著水平的抛物线型关系,且与土壤类型无关。田间试验表明,Q值与供试蔬菜鲜重产量亦有显著水平的抛物线型关系,可求得试验条件下空心菜和莴苣(Lactuca sativa)磷肥施用的Q值临界指标分别为11mg/kg和13mg/kg。解吸模型研究为评价土壤磷素有效性提供了一种新方法。     

不同磷初始浓度对紫萍生长及磷吸收效率的影响

采用室内模拟培养试验方法,研究不同磷初始浓度对紫萍生长及磷吸收效率的影响。结果表明,水体初始ρ（磷）为3.0 mg.L-1时,紫萍相对生长率最高,生长繁殖速度最快。当初始ρ（磷）为0.3～3.0 mg.L-1时,紫萍对水体中磷的去除率在70%以上。紫萍累积吸磷量和磷吸收能力均随磷初始浓度的升高而增加,但当初始ρ（磷）为45.0 mg.L-1时,紫萍累积吸磷量和单位鲜质量紫萍吸磷量均明显下降。当初始ρ（磷）≤1.5 mg.L-1时,紫萍体内酸性磷酸酶活性升高,但随着低磷胁迫时间的延长,低磷条件和高磷条件间酸性磷酸酶活性差异减小。     

Role of phosphate solubilizing bacteria on rock phosphate solubility and growth of aerobic rice

Use of phosphate-solubilizing bacteria (PSB) as inoculants has concurrently increased phosphorous uptake in plants and improved yields in several crop species. The ability of PSB to improve growth of aerobic rice (Oryza sativa L.) through enhanced phosphorus (P) uptake from Christmas island rock phosphate (RP) was studied in glasshouse experiments. Two isolated PSB strains; Bacillus spp. PSB9 and PSB16, were evaluated with RP treatments at 0, 30 and 60 kg ha(-1). Surface sterilized seeds of aerobic rice were planted in plastic pots containing 3 kg soil and the effect of treatments incorporated at planting were observed over 60 days of growth. The isolated PSB strains (PSB9 and PSB16) solubilized significantly high amounts of P (20.05-24.08 mg kg(-1)) compared to non-inoculated (19-23.10 mg kg(-1)) treatments. Significantly higher P solubilization (24.08 mg kg(-1)) and plant P uptake (5.31 mg plant(-1)) was observed with the PSB16 strain at the highest P level of 60 kg ha(-1). The higher amounts of soluble P in the soil solution increased P uptake in plants and resulted in higher plant biomass (21.48 g plant(-1)). PSB strains also increased plant height (80 cm) and improved root morphology in aerobic rice. The results showed that inoculation of aerobic rice with PSB improved phosphate solubilizing activity of incorporated RP.     

钒胁迫对水稻幼苗生理生化和富集特性的影响

水稻（Oryza.sativa L.）是我国最重要的粮食作物之一,水稻产量占粮食总产量的一半以上,一旦水稻受到重金属污染,将会影响水稻植株的正常生长和生理特性。目前关于钒胁迫对水稻植株生理特性指标的影响方面报道较少。通过水培实验,研究了不同钒（V）质量浓度（0、4、8、12、16、20 mg·L-1）对水稻幼苗（Oryza.sativa L）生理生化和富集特性的影响。结果表明：随着V胁迫浓度的增加,叶绿素含量、可溶性蛋白含量、过氧化氢酶（CAT）活性、过氧化物酶（POD）活性、超氧化物歧化酶（SOD）等均呈现先上升、后下降的变化趋势。当ρ（V）≤12 mg·L-1,与对照相比较,叶绿素含量、可溶性蛋白含量和酶活性增大了135.3%、104.2%、77.8%（CAT）、84.5%（POD）和273.2%（SOD）;当ρ（V）〉12 mg·L-1,则分别降低37.2%、39.4%、41.1%、24.1%和24.5%。随着 V 胁迫浓度的增加,丙二醛（MDA）含量和细胞膜透性逐渐增大,与对照相比,分别增加了38.5%~289.3%、21.2%~303.2%,根系活力下降了10.9%~82.2%。可见,低ρ（V）（≤12 mg·L-1）对水稻幼苗的生长有一定的刺激作用,水稻幼苗自身保护酶表现出较强的自我调节能力;高ρ（V）（〉12 mg·L-1）明显抑制叶绿素和蛋白合成、抗氧化酶活性和根系活力,伤害了细胞质膜系统,影响水稻幼苗的生长发育。不同V浓度胁迫下,水稻幼苗累积的V含量为：根〉茎叶。随着V胁迫浓度增加,水稻幼苗各器官V含量增大,其中根部增幅远大于茎叶,当ρ（V）从5 mg·L-1增加到40 mg·L-1,与对照相比较,根部增加了0.98~25.3倍,茎叶部增加了0.26~4.74倍。生物富集系数（BF）先增加后降低,最大值为2.8408;迁移系数（TF）下降,最低值为0.1170,说明水稻对V有较强的富集能力,但迁移能力较低,积累的V主要富集在根部,可减轻V对地上部植物的危害。     

Interference of three weed extracts on uptake of nutrient in three different varieties of paddy through radio tracer techniques

Interference of three dominant weed extracts viz., Ageratum conyzoides L., Melilotus indica All. and Parthenium hysterophorus L. were examined on seed germination, seedling growth, and nutrient uptake (32P and 65Zn) in three different varieties (PD-10, PD-12 and PB) of paddy (Oryza sativa L.). Among the three different varieties irrespective of weed extracts, PD-10 and PD-12 were resistant and PB was susceptible in terms of seed germination, radicle length and plumule dry weight; and PD-12 and PB were resistant and susceptible, respectively, in terms of plumule length and total seedling dry weight. A. conyzoides caused maximum reduction in seed germination and M. indica in seedling growth in different varieties of paddy. The weed extracts interfered in uptake of both 32P and 65Zn and there was a gradual decrease in uptake of both nutrients with increasing concentration of extracts in both root and shoot. The uptake of 32P and 65Zn was more inhibitory with the extracts of A. conyzoides and M. indica, respectively in different varieties. The inhibition in seed germination, seedling growth and nutrient uptake may be due to the presence of phenolics and other secondary metabolities. The phenolics such as gallic, vanillic, protocatechuic and p-hydroxybenzoic acids were identified from these weed extracts.     

不同磷效率基因型小麦对VAM真菌依赖性的影响因子及机理

以高、中、低效３ 个磷效率基因型小麦为试材,在ｗ（Ｐ２Ｏ５） ＝２０ ｍｇｋｇ 和６０ ｍｇｋｇ 的水平下,接种或不接种两个ＶＡ菌根真菌Ｇｌｏｍｕｓ ｍｏｓｓｅａｅ 和Ｇｌｏｍｕｓｖｅｒｓｉｆｏｒｍｅ,研究了影响小麦菌根依赖性的因子及机理．结果表明,在低磷水平下,小麦菌根依赖性的大小顺序为中效＞ 低效＞ 高效;对Ｇ． ｖｅｒｓｉｆｏｒｍ 的依赖性大于对Ｇ． ｍｏｓｓｅａｅ 的依赖性;而在高磷水平下,接种菌根表现出不同程度的生长抑制作用．相关分析发现,菌根依赖性与根冠比、根长、根毛长度、根毛密度、磷利用效率之间的相关性不显著;在低磷水平下,菌根依赖性与磷效率、根吸收效率之间呈极显著的负相关,与韧皮部蔗糖运输速率之间呈显著或极显著的正相关．认为影响不同磷效率基因型小麦菌根依赖性的主要因子是根的吸收效率;菌根依赖性、磷效率和韧皮部蔗糖运输速率均受根吸收效率影响     

磷胁迫条件下北美红杉幼苗生长的适应性反应

采用温室盆栽的方法探讨了不同的P质量浓度(0、0.018、0.036、0.054、0.071、0.108、0.142和0.213g.L-1,以0.071g.L-1作为对照)处理下北美红杉一年生幼苗生物量及根系生长的反应,结果表明,P供应不足时,幼苗将更多的生物量分配到地下以扩大根系的生长,地下/地上生物量比率增加,缺P时为0.47。高水平供P条件下,增加幅度较大,供P水平增加2倍时,达0.66。幼苗细根/叶生物量比率与地下/地上生物量比率变化规律相似。当供P水平较低时,幼苗的一级侧根数增多,根系的分枝密度增加,二级侧根节点之间距离减小,细根的特定根长增加,这些根系结构特征的变化有利于幼苗吸收更多的养分和水分。P养分供应适宜时,幼苗增加了地上部分的分枝数,以争取更多的地上资源空间。     

磷对铝胁迫下荞麦根际土壤铝形态和酶活性的影响

采用土培法,以耐铝性明显差异的两个荞麦Fagopyrum esculentum基因型“江西养麦”(耐性)和“内蒙荞麦”(敏感)为材料,研究铝胁迫下磷对荞麦生长和根际土壤铝形态、土壤酶活性的影响.结果表明,0.4 g·kg~(-1)铝配施0.2 g·kg~(-1)磷的内蒙和江西荞麦根系生物量分别比不施磷组增加了67.9%和21.2%,磷能显著缓解铝对荞麦根系生长的抑制,提高根系生物量和根冠比.磷铝互作下根际土壤的交换态铝含量显著降低,毒性较小的吸附态羟基铝和络合态铝含量显著增加.根际土壤酶活性变化复杂,过氧化氢酶活性与磷质量分数呈正相关,w_p=0.2 g·kg~(-1)对铝胁迫下荞麦根际土壤转化酶活性最有利.说明施磷降低铝胁迫根际土壤的交换态铝含量,提高土壤过氧化氢酶活性,减缓铝毒对植株生长的抑制作用.     

Influence of iron plaque on chromium accumulation and translocation in three rice (Oryza sativa L.) cultivars grown in solution culture

Hydroponic experiments were conducted to investigate the role of iron plaque on root surface in chromium accumulation and translocation in three rice cultivars (90-68-2, CDR22 and Jin 23A). Rice seedlings were grown under 1.0 mg L^?1 trivalent chromium (Cr(III)) stress with and without phosphorus (P) treatments. P addition significantly increased the shoot and root biomass in all three rice cultivars. In the absence of P, the amounts of iron plaque (DCB-extractable Fe) on the root surface increased resulting in the increase of Cr accumulation in iron plaque. Compared to that with P treatment, Cr concentrations in iron plaque without P treatment were enhanced by 2–3 folds in the three rice cultivars. There was a significantly positive correlation between DCB-extractable Cr and DCB-extractable Fe on the root surface of the three rice cultivars. There were no significant effects on Cr concentration in roots and shoots between P treatments, but significant differences among cultivars were observed. Cultivar Jin 23A had the lowest Cr concentration both in roots and shoots regardless of P treatment. The results suggest that iron plaque could be a trap for immobilising Cr from environment but may not affect Cr uptake and translocation. Screening and breeding the cultivars with low Cr accumulation is considered as the most effective approach in Cr contaminated areas.     

Uptake of zinc, cadmium and phosphorus by arbuscular mycorrhizal maize (Zea mays L.) from a low available phosphorus calcareous soil spiked with zinc and cadmium

In a multifactorial pot experiment, maize (Zea mays L.) with or without inoculation with the arbuscular mycorrhizal (AM) fungus Glomus mosseae BEG167 was grown in a sterilized soil spiked with three levels of zinc (0, 300 and 900 mg Zn kg⁻¹ soil) and three levels of cadmium (0, 25 and 100 mg Cd kg⁻¹ soil). At harvest after 8 weeks of growth, the proportion of root length of inoculated plants colonized decreased with increasing Zn or Cd additon, and was 56% in the absence of both metals and was reduced significantly to 27% in the presence of the higher levels of both metals. Mycorrhizal plants had higher biomass than non-mycorrhizal controls except at the highest soil level of Cd. Cadmium had more pronounced effects on plant biomass than did Zn at the levels studied and the two metals showed a significant interaction. The data suggest that mycorrhizal inoculation increased plant growth with enchancement of P nutrition, perhaps increasing plant tolerance to Zn and Cd by a dilution effect. AM inoculation also led to higher soil solution pH after harvest, possibly reducing the availability of the metals for plant uptake, and lowered the concentrations of soluble Zn and Cd in the soil solution, perhaps by adsorption onto the extrametrical mycelium.