大豆/玉米间作体系中接种AM真菌和根瘤菌对氮素吸收的促进作用

利用大豆和玉米之间根系不同分隔方式的盆栽试验,研究了在玉米/大豆间作体系中接种大豆根瘤菌、AM真菌Glomus mosseae和双接种对间作体系氮素吸收的促进作用。结果表明,双接种处理显著提高了大豆及与其间作玉米的生物量、氮含量,双接种大豆/玉米间作体系总吸氮量比单接AM菌根、根瘤菌和不接种对照平均分别增加22.6%、24.0%和54.9%。大豆促进了与其间作玉米对氮素的吸收作用,在接种AM真菌和双接种条件,间作玉米的AM真菌侵染率提高,大豆根瘤数增加; 接种AM真菌处理,不分隔和尼龙网分隔比完全分隔玉米吸氮量的净增加量是未接种对照的1.8、2.6倍,双接种处理分别是对照的1.3和1.7倍。说明在间作体系中进行有效的根瘤菌和AM真菌接种,发挥两者的协同作用对提高间作体系土壤养分利用效率,进一步提高间作体系的生产力有重要的意义。     

丛枝菌根真菌和根瘤菌对连作花生养分吸收及土壤微生物特性的影响

探讨接种丛枝菌根（AM）真菌和根瘤菌对连作花生作用效果及可能机制,有益于缓解花生连作障碍,促进花生养分高效和持续高产。在花生典型种植区,选择有代表性的酸性砂姜黑土,设置不接种（CK）、接种AM真菌（AM）、接种根瘤菌（Rb）、双接种（AM+Rb）4个处理,采用微区试验,研究AM真菌与根瘤菌对花生生长、根系形态、养分吸收及土壤微生物特性的影响。结果表明：接种处理增加了花生第一侧枝长和分枝数,显著提高了花生根和地上部生物量、荚果重和根瘤数,其中AM+Rb处理提高效果最显著。同时AM+Rb处理的花生根系总根长、总表面积、总体积分别显著提高30.1%、20.2%和59.7%,土壤微生物总量、细菌/真菌、放线菌/真菌明显提高,不同部位氮、磷、钾、钙、镁积累量显著增加,效果优于单接种。比较AM真菌和根瘤菌2种接种方式,Rb处理的花生不同部位氮积累量较高,而AM处理的根系形态状况较好,且花生不同部位磷、钾、钙、镁吸收量较高。可见,在酸性砂姜黑土区,接种AM真菌和根瘤菌尤其是双接种有益于改善根系形态状况和根际微生物环境,增强花生养分吸收能力,从而促进花生的生长及产量的提高。     

菌剂与肥料配施对矿区复垦土壤白三叶草生长的影响

采用盆栽试验研究了矿区复垦土壤菌剂与肥料的不同配施对白三叶草(Trifolium repens Linn)生长的影响。结果表明: 双接种VA 菌根真菌(Glomus mossea)和根瘤菌(Rhizobium)能显著提高白三叶草根瘤数、根瘤鲜重和固氮酶活性, 根瘤数在有机肥双接种与无机肥双接种处理之间差异不显著, 而根瘤鲜重和固氮酶活性差异显著; 肥料与各菌剂组合处理中, 有机肥双接种处理的白三叶草分枝数、干物质重最大; 在白三叶草生长40 d 和150 d 时, 双接种处理的叶片数均为各处理中最大值; 接种VA 菌根真菌、根瘤菌和双接种均可增加白三叶草根系的菌根侵染率和土壤孢子数, 总体表现为双接种处理＞接种VA 菌根真菌＞接种根瘤菌, 有机肥相应处理＞无机肥相应处理＞对照; 肥料与菌剂的配合施用可有效提高植物对土壤氮、磷、钾养分的吸收。在矿区复垦土壤上有机肥与VA 菌根真菌和根瘤菌菌剂配施能显著促进白三叶草的生长, 是提高矿区复垦土壤植被恢复中比较适宜的组合方式。     

蚕豆任米问作接种AM真菌与根瘤菌对其吸磷量的影响

盆栽试验研究不同根系分隔方式蚕豆/玉米间作接种AM真菌和根瘤菌对其吸收有机磷影响结果表明,接种AM真菌均显著促进玉米和蚕豆吸收有机磷,与对照相比吸P量分别增加138.1%和82.3%;接种AM真菌和根瘤菌对蚕豆吸收有机磷有协同促进作用,蚕豆根瘤数、根瘤重和菌根侵染率显著增加,并改善与其间作玉米的营养状况,明显促进玉米生长。     

黑土接种VA菌根真菌对大豆植株吸磷及固氮的影响

在黑土中具有土著菌根真菌和根瘤菌的条件下，ＶＡ菌根真菌的菌丝对土壤有较强的亲合力，表现出在缺磷的环境中仍可吸收足够量的磷以维持正常生长，ＶＡ菌根真菌和根瘤菌双接种保持了菌根真菌的侵染优势，接种ＶＡ菌根真菌可增加植株对土壤中磷的吸收，促进根系发达，提高根瘤菌的固氮能力，增强固氮酶的活性，从而使大豆产量显著提高。     

4种生物质对大豆双共生系统、土壤微生物及产量的调控

通过田间试验研究施入生物质对根瘤菌、丛枝菌根真菌与大豆双共生系统、土壤微生物及大豆产量的影响。生物质设置秸秆、土豆皮、食用菌废弃料、大豆浸出液4个处理。分别在植株生长第4片复叶展开(V5)、结荚始期(R3)和鼓粒盛期(R6)取样测定。研究结果表明: 外施4种生物质对大豆双共生系统均有不同程度促进作用, 且生物质对大豆菌根形成的促进作用较对根瘤形成的促进更显著, 持续时间更长。在4种生物质中, 秸秆处理表现效果最佳, 不仅对大豆双共生系统、土壤细菌、真菌数量有增效作用, 同时对大豆产量有协同促进作用。在R6期大豆有效根瘤数量、丛枝菌根真菌侵染率、土壤细菌数量分别较对照增加238.46%、26.28%、131.99%, 产量较对照增加69.78%, 且秸秆容易获得, 施用方便, 是有效提高大豆产量的生物质。大豆浸出液处理对大豆双共生系统促进显著, 在R6期有效根瘤数量较对照增加89.74%, 同时丛枝菌根真菌侵染率较对照增加31.23%, 但由于此处理播种前采用浸种方式, 对大豆子叶造成较大损伤, 使保苗率严重降低从而导致产量相对较低。食用菌废弃料和土豆皮处理在3个生育时期对大豆双共生系统的作用不尽一致, 但R6期2个处理的丛枝菌根真菌侵染率和土壤中真菌数量都极显著高于对照。     

旱作水稻西瓜间丛枝菌根菌丝桥诱导水稻磷转运蛋白的表达及对磷吸收的影响

采用中间隔网的土培根箱试验,对旱作水稻或/和西瓜接种丛枝菌根真菌(简称AM真菌)幼套球囊霉(Glomus etunicatum Becker&Gerdemann),研究了旱作水稻/西瓜间形成菌丝桥并诱导水稻磷酸盐转运蛋白OsPT11的表达和对磷吸收的影响。结果表明:(1)根箱两侧均未接种AM真菌时,旱作水稻和西瓜根系均不形成菌根,水稻根系的磷酸盐转运蛋白OsPT11也不表达。(2)西瓜侧接种AM真菌时,西瓜与水稻间形成的菌丝桥引起水稻菌根的形成,并诱导水稻根系磷酸盐转运蛋白OsPT11表达。(3)菌丝桥侵染和直接接种侵染对旱作水稻和西瓜形成丛枝菌根能达到相同的效果,旱作水稻和西瓜的菌根侵染率分别为80%以上和70%以上。(4)在旱作水稻/西瓜间作系统中,当接种AM真菌时,水稻和西瓜根际有效磷含量显著高于对照处理,水稻地上部全磷含量降低,而西瓜地上部全磷含量升高。     

接种AM真菌对甘薯光合作用及碳磷代谢酶活性的影响

为探讨丛枝菌根真菌和磷水平对甘薯生长特性的影响,采用盆栽试验方法,设置3个P水平(P_0,P_(50),P_(150)mg/kg),研究了接种AM真菌对甘薯生长、光合特性和叶片酶活性的影响。结果表明:接种AM真菌显著增加了甘薯根系侵染率、丛枝丰度、根内菌丝丰度和泡囊丰度。不同磷水平间甘薯的侵染率、丛枝丰度均差异显著,中磷的总体侵染情况显著高于低磷和高磷水平(P0.05)。低磷和中磷条件下,接种处理显著提高了甘薯的生物量和氮磷吸收量(P0.05),其中在磷50mg/kg水平下,接种菌根真菌后甘薯氮磷养分吸收量显著高于未接种处理,地上地下部生物量分别提高了28.6%和73.3%,而高磷条件下接种处理甘薯地上和地下部的生长显著降低。在低磷和中磷水平下,接种AM真菌显著提高了甘薯的净光合速率、气孔导度和蒸腾速率;在中磷水平下接种AM真菌甘薯叶片的蒸腾速率和气孔导度达到最大值,之后随着磷水平的升高而降低;当土壤磷素供应过高时,接种AM真菌属非气孔限制因素导致的光合速率降低(P0.05)。在低磷和中磷水平下,接种菌根真菌显著提高了甘薯叶片中蔗糖合成酶、6-磷酸葡萄糖酸脱氢酶、蔗糖磷酸合成酶和磷酸酶的活性;在高磷水平下,接种后甘薯叶片代谢酶活性明显降低。不同磷水平下的菌根效应表现为P_(50)P_0P_(150),说明接种菌根的效果受土壤磷水平的影响。     

发酵牛粪对苏丹草根系丛枝菌根（AM）真菌侵染及磷吸收效率的影响

通过温室盆栽试验,研究接种苏格兰球囊霉(Glomus caledonium)条件下添加不同比例发酵牛粪(0.33%、0.50%和1.00%)对苏丹草(Sorghum sudanense)根系丛枝菌根(AM)真菌侵染率、土壤孢子密度、植株生物量与根冠比及根系磷(P)吸收效率的影响。结果发现,与对照相比,接种AM真菌处理植株地上部生物量趋于下降、根冠比显著提高(p<0.05),在此基础上添加0.33%或0.50%发酵牛粪处理土壤孢子密度、植株根系生物量和AM真菌侵染率均趋于升高,根冠比没有明显变化,根系P吸收效率显著提高(p<0.05);添加1.00%发酵牛粪显著提高土壤孢子密度、植株生物量和根系AM真菌侵染率(p<0.05),根冠比与仅接种AM真菌处理相同,根系P吸收效率则达到仅接种AM真菌处理的1.83倍。结果表明,添加1.00%发酵牛粪对苏格兰球囊霉扩繁及其宿主植物P吸收均具有突出促进作用。     

黑土农田施加AM菌剂对大豆根际菌群结构的影响

为揭示在黑土农田条件下施加丛枝菌根(AM)菌剂对作物根际微生物群落的影响,试验以大豆为研究对象,田间播种时分别施加根内球囊霉(Glomus intraradices,GI)和摩西球囊霉(Glomus mosseae,GM)两种AM菌剂,以单施化肥处理(F)和不施加AM菌剂及化肥处理(CK)作为对照,采用传统与现代分子生物学手段,研究大豆根际土壤中菌群结构及根系内AM真菌多样性。结果表明:GI、GM处理的大豆菌根侵染率最高达到78.3%和86.6%;GI、GM、F处理的大豆根际土壤中可培养细菌、真菌和放线菌三大菌群的数量与CK处理相比显著提高(p0.05)。分离大豆结荚期根际土壤中AM真菌孢子,共获得Acaulospora属真菌3种,Glomus属真菌7种,孢子密度均较低,G.intraradices和G.mosseae均为各自处理的优势种群。对大豆结荚期根系和根际土壤PCR-DGGE图谱条带的丰度及优势条带测序分析,结果表明根际土壤中的AM真菌菌群数明显高于根系中AM真菌的菌群数量,GI处理的大豆根际土壤中AM真菌丰度值最大,GM处理大豆根系里的AM真菌丰度值最大,F处理的根际土壤中总AM真菌的数量最少;施加AM菌剂处理的大豆根系及根际土壤中的优势菌群分别为外源施加的两种AM真菌。     

AM fungi and rhizobium regulate nodule growth,phosphorous (P) uptake,and soluble sugar concentration of soybeans experiencing P deficiency

To understand the mechanisms behind the beneficial combinations of the existence and formation processes of tripartite symbiosis of arbuscular mycorrhizal fungi (AMF) and nitrogen (N)-fixing rhizobia in phosphorus (P) deficiency. The effects of different inoculations of Bradyrhizobium japonicum (BJ) and Glomus mosseae (GM) on plant growth, P uptake, and soluble sugar concentration of soybeans in a P-deficient environment were investigated utilizing split-root systems supplemented with either KH₂PO₄ (0.01 mM, I-P) or Phytin (200 mg P kg^?1, O-P) for 56 days. Six treatments were applied: (1) mono-inoculation of BJ in organic P compartment, O-BJ; (2) mono-inoculation of BJ in inorganic P compartment, I-BJ; (3) mono-inoculation of BJ in organic P compartment and mono-inoculation of GM in inorganic P compartment, O-BJ/I-GM; (4) mono-inoculation of BJ in inorganic P compartment and mono-inoculation of GM in organic P compartment, O-GM/I-BJ; (5) dual inoculation of BJ and GM in organic P compartment, O-BJ/GM; and (6) dual inoculation of BJ and GM in inorganic P compartment, I-BJ/GM. Compared with sole inoculation of BJ, dual inoculation increased the plant and nodule biomass, which were higher in I-BJ/GM and O-BJ/I-GM treatments compared to O-GM/I-BJ and O-BJ/GM treatments. Roots inoculated with GM in I-P grew better regardless of whether BJ was inoculated or not. GM inoculation in I-P also increased the number of leaves and the rate of photosynthesis. Nodule P concentration following dual inoculation in I-P was increased 2.1-fold compared to that in sole inoculation with BJ. Shoot soluble sugar concentration with dual inoculation in O-P was less than that in the other three treatments. Inoculated with GM in I-P increased the root soluble sugar concentration compared with the non-GM plants or GM inoculation in O-P. The present findings may explain a regulatory system for the nutrition of beneficial microbial interactions by the nodule or by AM fungal hyphae at selecting the best performing tripartite symbiotic partners in P deficiency.     

菌根对紫色土上间作玉米生长及磷素累积的影响

丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)在土壤与植物系统的磷素循环中发挥着关键的作用。本文通过盆栽模拟试验研究了不同AMF接种状况[不接种(NM)、接种Glomus mosseae(GM)、接种G.etunicatum(GE)]和玉米/大豆间作体系不同根系分隔方式(不分隔、尼龙网分隔、塑料膜分隔)对间作玉米植株生长及磷素吸收累积的影响。研究结果表明:GM处理下的间作玉米根系侵染率在不同根系分隔方式之间的差异不显著,而GE处理则在塑料膜分隔处理下对玉米的侵染率最高。接种不同AMF对间作玉米促生效果不同,GM和GE处理在不同根系分隔情况下表现出各自的优势,与未接种处理相比,GM处理能使玉米生物量、株高有一定程度增加并在根系不分隔处理下玉米磷吸收较多、生长较好;GE处理能使植株生物量有一定程度增加并在尼龙网分隔处理下的玉米磷吸收较多、生长较好。间作体系不同根系分隔方式对玉米的影响也不同,其中玉米地上部生物量在根系分隔处理下普遍小于不分隔处理,但根系生物量的大小情况则刚好相反。另外,无论何种接种状况,玉米根系磷含量及吸收量均以尼龙网分隔处理显著较高。而根系磷吸收效率则以接种G.mosseae且不分隔根系处理显著高于分隔处理。所有复合处理中,以接种G.etunicatum与尼龙网分隔根系组合处理对间作玉米的生长及磷素累积的促进作用最好,若应用于滇池流域,可望有效控制坡耕地土壤磷素的迁移。     

分室磷添加下菌根对滇池流域红壤间作玉米生长及磷素利用的影响

随着全球范围内磷矿资源短缺问题的日益严重,间作或菌根技术强化作物对土壤磷(P)的利用及增产增收的效应受到越来越多的关注。通过三室隔网盆栽模拟试验研究了分室磷处理[不添加磷(P0)、添加有机磷(OP50)、添加无机磷(IOP50)]和根室不接种(NM)、根室接种丛枝菌根真菌Glomus mosseae(GM)对与大豆间作的玉米的生长及磷素利用的影响。研究结果表明:所有复合处理中,以间作?GM?IOP50组合处理下的玉米根系最短和地上部生物量最高;OP50处理下,间作玉米的菌根侵染率显著高于单作处理。间作条件下,无论分室磷添加与否,接种GM处理的玉米地上部生物量明显高于NM处理;接种GM处理的玉米根系生物量和株高均显著高于NM处理,且根系生物量以间作?GM?OP50组合处理下最高。接种GM条件下,P0、IOP50、OP50处理下的间作植株生物量较单作处理分别提高45.98%、111.33%、33.56%。单作条件下,无论分室磷添加与否,接种GM处理的玉米地上部磷含量均显著高于NM处理;无论何种种植模式及分室磷添加与否,接种GM处理的植物根系磷含量均显著高于NM处理。无论磷添加与否,间作?GM组合条件下的玉米地上部磷吸收量均显著较高,其中IOP50处理下的地上部磷吸收量显著高于OP50处理。间作?GM组合条件下,IOP50处理玉米根系的磷吸收效率均显著高于OP50处理。可见,接种GM、分室磷添加和间作各自在一定程度上促进了玉米的生长。综合菌根侵染、生物量及磷含量与吸收量、磷吸收效率等指标,所有复合处理中以间作?GM?IOP50组合对玉米地上部的促生作用最好,玉米磷素吸收最多,可望有效强化滇池流域红壤坡耕地磷素的利用。     

Effect of Syrian Indigenous Arbuscular Mycorrhizal Fungi in Combination with Manure on the Growth of Cotton (Gossypium hirsutum L.)

A pot experiment was conducted to evaluate the effect of indigenous arbuscular mycorrhizal fungi (AMF) and the synergy of indigenous AMF and sheep manure (SM) on cotton growth and nitrogen and phosphorus uptake. AMF were a mixture of Glomus viscosum, Glomus mosseae, and Glomus intraradices initially isolated from a Syrian cotton field. Dry biomass was enhanced significantly by AMF and was higher at AMF plus SM treatment compared to control. Cotton plants showed a significant dependency to indigenous AMF, which was 52% in the AMF treatment. Plant concentrations of nitrogen (N)and phosphorus (P) were significantly higher in mycorrhizal than nonmycorrhizal plants. Maximum plant N and P uptake was found in the treatment of AMF inoculation with SM, which was significantly higher by 202% and 397% over control, respectively. Indigenous AMF was successful in colonizing cotton roots and when combined with SM resulted in better plant growth and N and P uptake.     

The effect of mycorrhizal inoculation and phosphorus application on the growth and mineral nutrient status of apple seedlings

Apple seedlings cv. Antonovka were grown in soil taken from an orchard with a distinctive specific apple replant disease. The influence of the different available soil phosphorus (P) level (0, 20, 40 and 80 mg P dm^?3 of soil) and arbuscular mycorrhizae fungi (AMF) inoculation on the vegetative growth, chlorophyll fluorescence, and the frequency of mycorrhizae were assessed. Moreover, leaf and root mineral composition was ascertained by means of the inductively coupled plasma mass spectrometry (ICP-MS) method. The inoculation with AMF influenced seedlings growth as well as the biomass production and partitioning. The method of inoculation (granular, quick root dip or irrigation) had a great impact on the frequency of mycorrhizae (83.3, 98.8 and 100%, respectively) as well as on the abundance of arbuscules (36.4, 62.9 and 67.3%) as compared to the control (11.7%). The beneficial effect of AMF on leaf PSII efficiency was established. AMF inoculated plants had a significantly higher content of nitrogen, potassium, phosphorus and boron (N, K, P and B) in the shoots and a higher content of nitrogen, sulfur, copper, iron, manganese, molybdenum and titanium (N, S, Cu, Fe, Mn, Mo and Ti) in the roots. Although roots showed a higher concentration of aluminium, barium, lithium, cadmium, lead and vanadium (Al, Ba, Li, Cd, Pb, and V) but upon AMF inoculation, the concentration of these cations was much lower.     

Distribution of phosphorus in nodulated white clover plants

Nodulated plants of white clover (Trifolium repens) were established on agar slopes and then grown in batch nutrient solution. The solution contained various levels of phosphorus (P). The nodules were strong sinks for P when the supply was low, the concentrations of P in the nodules being higher than in the roots and shoots. At higher P levels, the roots and shoots came to have P concentrations equal to or higher than the nodules. The percentage of (N) in the plant parts and the activity (N fixed per unit nodule weight) of the nodules was unaffected by P supply. As the P concentration in the nodules increased with supply, their efficiency in terms of N fixed per unit of nodule P declined. It appears as if not all nodule P may be involved in N fixation, in a manner analogous to the decline in efficiency of use of P for growth as the supply increases.     

Bt基因导入对侵染丛枝菌根真菌的玉米生长生理及磷转运基因表达的影响

为了分析Bt玉米与常规玉米对接种丛枝菌根真菌响应的异同,本文在接种摩西球囊霉(Funneliformis mosseae)和不接种的条件下,对比分析了两个Bt玉米品种‘5422Bt1’(Bt11)和‘5422CBCL’(Mon810)以及同源常规玉米品种‘5422’根系中丛枝菌根真菌侵染率、磷转运基因的表达量、生长和养分利用状况。结果表明:生长50 d和80 d时,Bt玉米‘5422Bt1’和‘5422CBCL’根系丛枝菌根真菌侵染率显著高于常规玉米‘5422’,分别比‘5422’高13.54%、11.24%和9.83%、6.70%;50 d取样时,接菌和不接菌处理玉米‘5422Bt1’、‘5422CBCL’和‘5422’根系内的磷转运基因表达量均没有显著差异;接菌和不接菌处理下玉米‘5422Bt1’的干重显著高于‘5422CBCL’相应的处理,而与‘5422’没有显著差异;80 d取样时,不接菌处理玉米‘5422Bt1’的根长、根表面积和根体积显著高于‘5422’和‘5422CBCL’不接菌处理。Bt基因的导入主要影响了两个Bt玉米品种(‘5422Bt1’和‘5422CBCL’)苗期(50 d)和成熟期(80 d)的氮素吸收利用,与常规玉米品种‘5422’相比,合成Bt蛋白消耗了部分氮素和磷;3个玉米品种对接种AMF的响应不同,接菌处理提高了‘5422Bt1’和‘5422CBCL’苗期(50 d)和成熟期(80 d)的氮素吸收利用。在磷养分条件满足玉米生长需要的条件下,接种丛枝菌根真菌对Bt玉米磷转运基因表达量和磷的吸收利用没有显著影响。Bt基因的导入以及接种F.mosseae对Bt玉米生长和养分利用的影响与不同转化事件形成的品种特性相关。     

接种丛枝菌根真菌(AMF)对施磷石膏云烟87的生长以及砷污染的影响

【目的】丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)能够促进作物养分的吸收及生长,且对土壤砷污染有一定的抗性。磷石膏(phosphogypsum,PG)因含有丰富的磷、硫等养分可以为作物生长提供必要的养分,同时也可能带来砷污染的风险。【方法】为了探讨接种AMF对云烟87生长的影响以及磷石膏农用可能引起的砷污染风险,通过盆栽模拟试验研究了不同PG添加量(0和40 g/kg以PG0、PG40表示)和接种不同AMF[不接种None mycorrhizal(NM)、接种G.mosseae丛枝菌根真菌(GM)、接种G.aggregatum丛枝菌根真菌(GA)]对云烟87苗期生长及其磷、硫、砷吸收的影响。【结果】试验结果表明:无论接种与否,PG40处理的云烟87植株磷含量、吸收量及吸收效率均显著增加,其地上部硫含量及吸收量也显著增加;除NM处理外,添加PG均显著增加了云烟87根系的硫含量、硫吸收量及吸收效率,并显著增加了其植株的生物量。相同PG添加水平下,与NM处理相比,接种GM显著增加了云烟87根系的磷、硫吸收效率和植株的磷、硫含量及吸收量,另外,GM处理显著降低了其地上部砷含量及吸收量但显著增加了其植株的磷砷吸收比。在PG0处理下,接种GA显著增加了云烟87植株的磷含量及吸收量,并显著增加了其地上部硫含量及吸收量。在PG40处理下,接种GA显著增加了云烟87根系的硫含量和吸收量以及植株的生物量。无论是否添加PG,接种GA不同程度地降低了云烟87地上部砷含量和吸收量从而增加了其地上部的磷砷吸收比。【结论】在所有复合处理中,以添加磷石膏40 g/kg和接种GM对云烟87生长的促进效果较好,对施用磷石膏造成的砷污染有一定程度的抵御作用。     

Morphological and physiological studies on densely branched lateral roots triggered by localized phosphate in Sesbania cannabina

Densely branched lateral roots (DBLRs) in Sesbania cannabina are formed in response to patchily distributed phosphorus (P) in volcanic soils. Little attention has been paid to morphological and physiological responses of DBLRs. Here, we investigated the relation between plant growth and DBLR development, enzymatic activities involved in P acquisition, and the influence of arbuscular mycorrhizal fungi (AMF), which contribute to P uptake, to clarify the function of DBLRs. We investigated DBLR development induced by localized application of P fertilizer and we compared the activities of phosphoenolpyruvate carboxylase (PEPCase) and acid phosphatase (APase) between DBLRs and non‐DBLRs. Additionally, plants were grown with or without AMF to investigate the effect of AMF colonization on the numbers of DBLRs and plant P uptake, and we compared AMF colonization between DBLRs and non‐DBLR roots. Secondary to quaternary lateral DBLRs were produced after the primary lateral roots passed near P fertilizer. P_i content per DBLR increased as DBLRs developed, promoting higher shoot growth. Under P deficiency, PEPCase and APase activities increased in non‐DBLR, but were significantly lower in DBLRs in the same plants. AMF inoculation changed the root system architecture by significantly decreasing the number of DBLRs, and AMF colonization was lower in DBLRs than in non‐DBLRs. Our results indicate that DBLR formation is a P‐coacquisition strategy of S. cannabina grown in P‐deficient andosolic soil. Roots that form DBLR are clearly different from non‐DBLR roots in morphological and biochemical response and AMF symbiosis.     

接种菌根真菌对不同磷效率基因型大豆生长和磷吸收的影响

接种丛枝菌根真菌(AMF)能显著促进大豆生长和对磷的吸收,但不同磷效率基因型大豆对AMF接种的响应还少有报道。为探究接种AMF对不同磷效率基因型大豆生长和磷转运基因表达的影响,以磷高效大豆BX10和磷低效大豆BD2为试验材料进行盆栽试验,设置接菌和不接菌处理,对大豆干重、菌根侵染性状、氮磷养分含量、根系性状,以及菌根诱导的磷转运基因表达进行了分析。结果表明, AMF接种显著促进了大豆的磷吸收,并且接菌效果存在显著的基因型差异,接种AMF显著增加了BD2的地上部干重、磷含量以及植株总磷吸收量,但只增加了BX10的地上部磷含量和总磷吸收量,对植株地上部干重没有显著影响。无论接种与否,BD2的地上部磷含量均显著高于BX10,表明磷低效的BD2具有较高的植株体内磷转运能力。不接菌条件下,两个大豆基因型根系性状无显著差异;接种AMF后BX10的根系体积和根系平均直径均显著高于BD2。BD2的菌根生长反应(MGR)和菌根磷反应(MPR)均显著高于BX10,对菌根依赖性更高。此外,在接菌处理的BD2根系,代表菌根途径磷吸收的磷转运基因GmPT8、GmPT9和GmPT10表达均显著高于BX10;相应地,BD2的总磷吸收量也显著高于BX10。以上结果表明,接种AMF对促进磷低效大豆BD2生长和磷吸收的作用更大,这可能主要是由于BD2菌根途径的磷吸收量较高,体内磷转运效率较高。以上结果将为研究AMF接种对磷吸收的贡献提供理论依据。