不同基因型春蚕豆对磷胁迫的适应性反应

利用不同作物或品种吸收利用土壤磷能力的差异提高磷素营养效率,是解决磷资源短缺的重要生物学途径.选择西北地区重要经济作物春蚕豆作为研究对象,选用3个不同春蚕豆品种(系),采用严重缺磷的碱性灌淤土,利用盆栽法研究了在不同供磷水平下不同基因型蚕豆的根系形态特征、酸性磷酸酶活性(APase)及产量的表现, 探讨不同基因型蚕豆对低磷胁迫的适应性反应.结果表明在整个生长过程中根长、根半径、根比表面积和根冠比变动最明显的是临蚕5号,分别为36.40%,65.10%、65.27%和13. 46%;缺磷条件下,蚕豆主要通过减小根半径,增加根长、根表面积,提高根冠比及体内酸性磷酸酶活性来实现对低磷胁迫的适应;不同基因型对低磷胁迫的适应能力不同;缺磷胁迫明显诱导各基因型蚕豆体内酸性磷酸酶活性的上升,临蚕5号增加最快为24.9%,8409为7. 79%,8354为7.29%;同一基因型的不同器官中酸性磷酸酶活性大小表现为根系>茎部>叶片 .根系酸性磷酸酶和根系形态参数可分别作为蚕豆耐低磷品种筛选的选择指标;缺磷导致作物减产,并且不同的基因型作物减产的幅度不同,临蚕5号缺磷比施磷减产30.98%,而8354 的产量在两个磷水平下变化不明显,说明临蚕5号对磷素的反应最强烈,为磷低效基因型,而 8354反应比较迟钝,为磷高效基因型.     

大豆需磷关键时期磷高效利用遗传位点挖掘

土壤有效磷缺乏已成为影响大豆产量和品质的重要因素,深入挖掘大豆需磷关键时期磷高效利用遗传位点成为实现其分子遗传改良的重要前提。鉴于此,本研究利用SoySNP6K(5403个SNP标记)通过全基因组关联分析挖掘大豆需磷关键时期磷高效利用10个相关性状遗传位点,结果发现,T1关键时期(四叶期)适磷条件检测到78个关联SNP,以根系干重与植株总干重SNP较多;低磷条件检测到134个关联SNP,以植株总干重检测SNP最多,并在8号、13号、20号染色体分别检测到同时控制地上部干重和总干重、地上部鲜重和干重与总干重SNP簇;T2关键时期(六叶期)适磷条件检测到83个SNP,以株高和地上部干重检测SNP较多,低磷条件检测到53个SNP,以株高和根冠比SNP较多,并在18号染色体检测到同时控制根干重和总干重SNP簇,在11号、16号、18号染色体分别检测到3个一因多效SNP;上述关联SNP中有9个SNP同时在T1与T2时期被检测到,分别与地上部鲜重、干重、根冠比、株高等关联,为大豆磷素高效利用分子标记辅助育种以及候选基因克隆等提供了依据。     

耐低磷山羊草基因型的筛选与鉴定

为研究小麦近缘属种的耐低磷特性,本试验通过砂培法,以9种山羊草为供试材料,对低磷和正常供磷2个处理下山羊草苗期的相对地上部干重、相对根干重、相对生物量、相对根长、相对根冠比、相对磷积累量、相对磷吸收效率进行研究。结果表明,不同基因型山羊草对低磷胁迫的反应存在一定的差异。相关分析和主成分分析结果表明,相对地上部干重、相对根干重、相对生物量和相对磷积累量可作为耐低磷基因型山羊草筛选的指标。筛选结果表明,双角、粘果、小伞和拟斯卑尔脱山羊草为耐低磷型山羊草,尾状山羊草为磷敏感型山羊草。     

部分根系供磷对黄瓜根系和幼苗生长及根系酸性磷酸酶活性影响

通过分根处理研究了部分根系供磷对黄瓜幼苗生长、植株体内的含磷量及根系酸性磷酸酶活性的影响。结果表明 ,2 0 %根系缺磷 (1条根缺磷 ,4条根供磷 )可以促进根系及植株地上部的生长 ,其根系及地上部的生物量分别是正常生长植株的 1.39倍和 1.2 1倍。2 0 %根系缺磷 ,还可以促进其它供磷根系对磷的吸收。分根处理后 ,2 0 %根系缺磷不影响植物对磷营养的需要 ,但却表现出了R/S比增大的典型缺磷反应 ,说明植物感应缺磷根系起着比地上部更为重要的作用。分根处理后不供磷根系的酸性磷酸酶活性显著高于供磷根系的酸性磷酸酶活性 ,并且根系的酸性磷酸酶活性只与根系的含磷量显著相关 ,与地上部的磷营养状况关系不明显。这说明 ,缺磷条件下 ,黄瓜植株根系分泌酸性磷酸酶活性的增高 ,是黄瓜根系对低磷胁迫的适应性机理 ,而不是地上部改善体内磷营养的调控机理。     

磷胁迫下大豆酸性磷酸酶活性变化及磷效率基因型差异分析

在3种磷水平处理后,对23个大豆品种的叶片和根尖酸性磷酸酶活性、根冠比、干物质量、全磷含量及磷效率进行测定、比较和分析。结果表明,叶片或根尖酸性磷酸酶活性、叶片或根尖酸性磷酸酶活性相对值、根冠比,磷效率、磷效率相对值之间具有极显著差异(P相似文献   

供磷水平及方式对杉木幼苗根系生长和磷利用效率的影响

为研究杉木幼苗根系生长、形态学指标及养分利用效率对土壤磷素异质分布的响应规律,选择杉木种子园单株采种培育的半同胞家系实生幼苗为研究对象,采用室内沙培控磷盆栽试验,设计低浓度供磷(8 mg/kg KH₂PO₄)、正常供磷(16 mg/kg KH₂PO₄)和高浓度供磷(32 mg/kg KH₂PO₄)3个供磷水平,每个供磷水平分别采用2种供磷方式(局部供磷和均匀供磷)进行根部施磷。结果表明:(1)从供磷水平来看,低浓度供磷下的杉木根长、根系生物量、根冠比、根系及全株的磷素利用效率均显著大于正常供磷和高浓度供磷,而根平均直径相反;随着供磷水平的提高,杉木苗高和地上部生物量无显著差异,而比根长表现出逐渐降低的趋势。(2)从供磷方式来看,局部供磷处理的杉木苗高、根长、根系表面积、比根长、地上部生物量、根系及全株的磷素利用效率均显著大于均匀供磷处理,而根平均直径和根冠比则相反。总体上,低浓度局部供磷处理下杉木可明显增强其根系的形态可塑性,从而优化根系在养分异质土壤里的...     

间作对植株生长及养分吸收和根际环境的影响

通过盆栽实验研究了线辣椒和玉米间作对其植株生长、矿质养分吸收、根际环境以及铁载体分泌的影响,以探索间作促进铁、磷等养分吸收利用的可能生理机制.结果表明:(1)与单作相比,间作线辣椒地上部干重降低23.0%,根系干重增加44.2%,玉米地上部和根系的干重分别增加8.7%和22.9%;间作线辣椒根冠比和根系活力分别显著提高86.4%和29.8%;间作线辣椒、玉米叶绿素含量分别显著提高12.6%和7.8%.(2)与单作相比,间作线辣椒的铁、锌、锰含量分别增加1.50倍、1.39倍和1.34%,而间作玉米则无显著变化;间作线辣椒和玉米的钙含量都显著低于相应单作,氮含量没有显著变化,但磷、钾含量显著增加.(3)间作线辣椒和玉米的根际土、非根际土的酸性磷酸酶活性及根系酸性磷酸酶活性都显著高于相应单作,而其根际土和非根际土的pH值无显著变化;间作玉米根系的铁载体分泌比单作减少32.8%,间作线辣椒根系的铁还原酶活性是单作的1.10倍.研究发现,线辣椒/玉米间作能通过影响根际生物学特征和化学过程提高植株的铁、锌、磷和钾养分水平,缓解养分胁迫,是一种很有推广价值的种植模式.     

低磷胁迫下磷高效基因型大麦的根系形态特征

在根袋土培盆栽条件下,以磷高效基因型DH110+、DH147和低效基因型DH49大麦为试验材料,利用根系分析系统分析不同施磷(P₂O₅)水平(极低磷25 mg·kg^-1、低磷50 mg·kg^-1和正常磷75 mg·kg^-1)下,磷高效基因型大麦的根系形态特征及其与植株磷素吸收的关系.结果表明： 低磷胁迫显著降低大麦生物量和磷吸收量,其中磷高效基因型的生物量和磷吸收量在各施磷水平下分别为低效基因型的1.24～1.70和1.18～1.83倍;大麦的总根长、总根表面积、平均根系直径、不定根长及其根表面积、侧根长及其根表面积均随施磷水平的降低而显著降低,其中磷高效基因型大麦在各施磷水平下的总根长、总根表面积、比根长、侧根长及根表面积分别为低效基因型的1.46～2.06、1.12～1.51、1.35～1.72、1.69～2.42和1.40～1.78倍,而平均根系直径为低效基因型的70.6%～90.2%;主成分分析表明,平均根系直径、比根表面积和比根长受基因型差异的影响较为明显,是区分两类磷效率基因型大麦根系形态差异的主要指标;偏最小二乘回归分析表明,各施磷水平下,总根长、总根表面积对大麦植株磷素吸收贡献均较大,随施磷水平降低,不定根长、不定根表面积对大麦植株磷素吸收的贡献明显降低,而平均根系直径、比根长、侧根长及其根表面积的贡献明显增加.磷高效基因型大麦可通过维持侧根的生长、根细度和比根长的增加来适应低磷胁迫.     

低磷胁迫下甘蓝型油菜酸性磷酸酶对磷效率的贡献分析

为探讨低磷胁迫下甘蓝型油菜酸性磷酸酶活性的基因型差异及其与磷效率的关系, 采用土培实验研究了磷高效基因型102和磷低效基因型105对有机磷和无机磷的利用及其根际土壤酸性磷酸酶活性差异; 并采用水培实验研究了甘蓝型油菜根系分泌的酸性磷酸酶及不同叶片酸性磷酸酶的活性差异. 结果表明, 低磷胁迫能诱导根系及根系分泌的酸性磷酸酶活性升高; 土培条件下, 由于酸性磷酸酶的有效性受较多因素影响, 植物的磷营养和磷吸收效率与根系分泌的酸性磷酸酶活性并不直接相关; 缺磷胁迫下重组自交系群体叶片酸性磷酸酶活性与磷利用效率呈显著正相关, 进一步表明低磷诱导的植株叶片酸性磷酸酶活性升高能促进体内磷的再利用, 从而提高磷利用效率.     

两个基因型水稻利用有机磷的差异及其与根系分泌酸性磷酸酶活性的关系

以低磷条件下根系分泌酸性磷酸酶活性有显著差异的两个基因型水稻中部51和Azucena为材料,通过琼脂培养试验研究它们在无菌条件下利用植酸钠（IHP）的情况以及接种土壤微生物对水稻利用植酸钠能力的影响.结果表明：以植酸钠为磷源生长的中部51和Azucena的植株地上部干物质量、吸磷量和磷浓度均显著低于以无机磷为磷源生长的植株,植酸钠处理的水稻植株地上部吸磷量和磷浓度也均显著高于无磷处理植株,表明无菌培养条件下水稻能部分利用植酸钠.低磷条件下两个基因型水稻根系分泌酸性磷酸酶活性显著高于正常供磷处理,且低磷条件下中部51根系分泌的酸性磷酸酶活性较高,这可能是无菌条件下中部51利用植酸钠的能力高于Azucena的机理之一.高水平植酸钠处理（0.96 mmol P·L^-1）下两个基因型水稻植株地上部干物质量、磷含量及磷浓度均显著高于低水平植酸钠处理（0.16 mmol P·L^-1）,表明底物有效性可能是影响水稻利用植酸钠能力的限制因素之一.在低水平和高水平植酸钠处理下,接种土壤微生物对两个基因型水稻植株的地上部干物质量、磷含量及磷浓度均没有显著影响,表明在本试验中接种土壤微生物并不能显著提高水稻利用植酸钠的能力.     

Root Respiration,Photosynthesis and Grain Yield of Two Spring Wheat in Response to Soil Drying

The effects of soil water regime and wheat cultivar, differing in drought tolerance with respect to root respiration and grain yield, were investigated in a greenhouse experiment. Two spring wheat (Triticum aestivum) cultivars, a drought sensitive (Longchun 8139-2) and drought tolerant (Dingxi 24) were grown in PVC tubes (120 cm in length and 10 cm in diameter) under an automatic rain-shelter. Plants were subjected to three soil moisture regimes: (1) well-watered control (85% field water capacity, FWC); (2) moderate drought stress (50% FWC) and (3) severe drought stress (30% FWC). The aim was to study the influence of root respiration on grain yield under soil drying conditions. In the experiment, severe drought stress significantly (p < 0.05) reduced shoot and root biomass, photosynthesis and root respiration rate for both cultivars, but the extent of the decreases was greater for Dingxi 24 compared to that for Longchun 8139-2. Compared with Dingxi 24, 0.04 and 0.07 mg glucose m⁻² s⁻¹ of additional energy, equivalent to 0.78 and 1.43 J m⁻² s⁻¹, was used for water absorption by Longchun 8139-2 under moderate and severe drought stress, respectively. Although the grain yield of both cultivars decreased with declining soil moisture, loss was greater in Longchun 8139-2 than in Dingxi 24, especially under severe drought stress. The drought tolerance cultivar (Dingxi 24), had a higher biomass and metabolic activity under severe drought stress compared to the sensitive cultivar (Longchun 8139-2), which resulted in further limitation of grain yield. Results show that root respiration, carbohydrates allocation (root:shoot ratio) and grain yield were closely related to soil water status and wheat cultivar. Reductions in root respiration and root biomass under severe soil drying can improve drought tolerant wheat growth and physiological activity during soil drying and improve grain yield, and hence should be advantageous over a drought sensitive cultivar in arid regions.     

不同大豆品种磷吸收利用特性比较研究

土壤缺磷和低磷利用率是现代农业生产发展的主要限制因素之一,筛选和培育磷商效吸收利用品种是提高磷素利用率的有效途径。采用土壤盆栽试验方法进行了不同大豆（Glycine max（L.）Merr．）品种磷吸收利用特性比较研究。结果表明。在缺磷和正常供磷条件下,不同大豆品种植株在株离、根干重、地上部干重、根冠比率、植株磷含量和其相对值、磷吸收量和其相对值、磷利用效率和其相对比值等方面表现出显著的差异。多数达到了极显著水平。相关分析表明,在缺磷条件下,大豆不同品种植株磷的利用效率及其相对比值与植株磷含量和磷吸收量以及它们的相对值呈显著或极显著负相关。植株磷含量与植株磷吸收量呈极显著正相关。以植株干物质量和其相对值、植株磷吸收量和其相对似以及植株磷利用效率为筛选指标,筛选出3个大豆磷高效品种。     

氮素营养对小麦根冠协调生长的调控

在植物生长箱通过溶液培养方式,对不同氮素条件下不同抗旱性的小麦品种西农1043和小偃6号的幼苗根苗生长特性进行了研究,结果表明在不同氮素浓度下,氮肥用量的提高对地上部干重和叶片气体交换参数表现为增效效应,当用量增至一定程度时,地上部干重和叶片气体交换参数均呈下降趋势,只是各自的适宜用量存在差异。培养介质氮素浓度低时,有利于小麦根系干重累积,培养介质氮素浓度高时,不利于根系干重累积。西农1043和小偃6号根长分布基本相似,水分利用效率随着根冠比的增大而降低。小麦根冠比的增加并不利于叶片水分利用效率的提高,而叶片光合作用最优的根冠比为0．5左右。     

Isolation and characterization of bacteria from the rhizosphere of wheat

In this study, we isolated bacteria from rhizosphere and endorhizophere of wheat crops of the central region of Argentina. The isolates were phenotypically characterized and the restriction patterns of 16S rDNA (ARDRA) using endonuclease AluI were analysed. Representative isolates were used to evaluate the effect of the inoculation on the growth of wheat under greenhouse conditions. The effects of plant growth-promoting bacteria on wheat plants were studied by evaluating shoot fresh and dry weights and root fresh and dry weights. One native strain increased the shoot and root dry biomass by 23% and 45% respectively. Other strains increased the shoot dry biomass. A 1.5 kb fragment of the 16S rRNA gene of one isolate was sequenced. This isolate showed high identity with different species of Pseudomonas.     

Some aspects of wheat cultivar response to applied phosphate

Summary Two experiments are described in which a comparison was made of differences in phosphorus contents, dry matter production and root growth between a semi-dwarf wheat (Israel M68) and a standard height cultivar (Olympic). In the first experiment, using soil as a support medium, Olympic had higher root dry weight and root to shoot ratios, but lower root and shoot phosphorus contents, than Israel M68. In the second experiment, using solution culture technique, Olympic had higher root dry weights and root to shoot ratios, but there was no cultivar difference in either root or shoot phosphorus content. This suggests an improved ability in the semi-dwarf wheat to explore the soil system. In both experiments the rate of uptake of phosphorus, when calculated per unit root fresh weight, was highest with Israel M68. Root measurements in a later experiment (Experiment 2a) indicated similar total fresh weights for both cultivars, but on a unit fresh weight basis, the semi-dwarf cultivar had a greater root number, root area and lateral root volume. Although further studies to clarify the situation are necessary, these differences may be associated with the enhanced grain yield response to superphosphate of some semi-dwarf wheats when compared to standard height cultivars. re]19751104     

东北地区不同小麦品种对黑麦草的化感作用

以东北地区33个不同来源的小麦品种为研究对象,采用琼脂共培法,评价了不同小麦品种对黑麦草所产生的化感作用.通过分析不同小麦品种对黑麦草根长、苗高、根干重及苗干重的影响,探讨不同小麦品种对黑麦草化感作用的差异,从而筛选出具有较强化感潜力的小麦品种.结果表明,不同小麦品种对黑麦草根长、苗高、根干重及苗干重的影响存在显著差异.利用RI值作为化感作用的指标,结合聚类分析方法,可将这33个小麦品种按化感能力的强、中、弱分成3类;其中龙幅麦9号、龙幅麦13号、锦麦2003和小冰麦33号为化感能力较强的品种.     

Allelopathic effect of lantana on some agronomic crops and weeds

Summary The allelopathic effects of dried lantana shoot residues was examined on wheat, corn, soybean, Virginia pepperweed and velvetleaf on growth over a 30-day period. Significant differences in the growth of the test species were observed. Corn was the most sensitive and wheat was least affected by lantana residues. The other three species were intermediate in their growth response to lantana. Shoot lengths were affected in corn and velvetleaf while root length was reduced in all species except wheat. The shoot dry weights of wheat and soybean were not reduced by lantana residues. In the other three species there was a significant reduction of shoot dry weight due to lantana. The root dry weights of all the five species were reduced by lantana residue. The results demonstrated an overall rate dependent response of the plant species to lantana shoot residue concentrations. Florida Agricultural Experiment Station Journal Series No. 7166. Research Associate and Associate Professor, respectively.     

小麦地上部和根系生长的相关性及其在耐Al性筛选中的作用

1　引　　言以往的研究中 ,测定植物根系长度或重量通常以相对根长或相对根系干重作为耐性指标进行耐Ａｌ性的筛选[2 ,4 ,5,8] .但是根系性状在土培或田间试验中不仅取样和测定困难 ,而且易造成根系损伤 ,影响测定的精度 .因此 ,有必要建立简便、可靠且易于测定的筛选指标 .能否采用植株地上部耐性指标来衡量不同小麦基因型的耐Ａｌ性 ?以往涉及植物在铝毒胁迫下地上部和根系生长的耐性指标间的相关性 ,以及地上部耐性指标用于耐Ａｌ性筛选方面的研究甚少 .本研究采用两种筛选方法探讨了 2 4个小麦基因型地上部和根系耐性指标间的相关性 ,旨…     

Rice cultivar evaluation for phosphorus use efficiency

Phosphorus deficiency is one of the most growth-limiting factors in acid soils in various parts of the world. The objective of this study was to screen 25 rice cultivars (Oryza sativa L.) at low, medium, and high levels of soil P. Number of tillers, root length, plant height, root dry weight and shoot dry weight were related to tissue P concentrations, P uptake and P-use efficiency. Shoot weight was found to be the plant parameter most sensitive to P deficiency. Significant cultivar differences in P use efficiency were found. Phosphorus use efficiency was higher in roots than shoots and decreased with increasing levels of soil P. Positive correlations were found among growth parameters such as plant height, tillers, root and shoot weight, and P content of roots and shoots. These results indicate selection of rice cultivars for satisfactory performance under low P availability can be carried out using shoot and root dry weight as criteria.