共查询到17条相似文献,搜索用时 203 毫秒
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低磷土壤接种菌根真菌和解磷细菌对大田玉米生长和磷吸收的影响 总被引:2,自引:0,他引:2
丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)能与多数陆生植物共生,促进植物吸收养分尤其是磷。解磷细菌(Phosphate-solubilizing bacteria,PSB)可以活化土壤中难溶性无机磷和有机磷。本研究采用苯菌灵对田间低磷土壤中土著AM真菌进行灭菌,并接种外源AM真菌(Glomusversiforme,G.v)和PSB(Pseudomonassp.),研究AM真菌和PSB接种对不同生育期玉米生长、磷养分吸收和产量的影响。结果表明,施用苯菌灵能够有效地抑制土著AM真菌对玉米根系的侵染,未施用苯菌灵处理中土著AM真菌促进了玉米前期和收获期的生长,提高了玉米吸磷量;接种Pseudomonas sp.促进了玉米六叶期根系的生长;接种外源AM真菌G.v促进了玉米六叶期和收获期地上部的生长,但降低了玉米产量。双接种Pseudomonas sp.和G.v对玉米生长、吸磷量和产量未表现出显著的协同效应。 相似文献
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不同氮肥水平下玉米与龙葵竞争吸收镉的差异性研究 总被引:1,自引:0,他引:1
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适量施磷有效提高苋菜对镉污染土壤的修复能力 总被引:1,自引:0,他引:1
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绿洲盐化潮土施镁对玉米幼苗生长、活性氧自由基代谢和锌营养的影响 总被引:1,自引:0,他引:1
【目的】甘肃河西走廊绿洲盐化潮土地玉米缺锌现象非常普遍,土壤镁含量高通常被认为是造成土壤和作物缺锌的重要因素之一,本文探讨了绿洲盐化潮土锌、镁之间的关系。【方法】采用盆栽模拟试验方法,以硫酸镁为原料,设加入Mg2+0、74、147、221、515 mg/kg,形成交换性Mg含量分别为287.3、349.2、411.6、487.9、755.2 mg/kg的混合土壤,来模拟绿洲盐化潮土含镁量低、较低、中等、较高、极高5种类型。在玉米生长期间浇灌去离子水,用重量法控制水分的供应。玉米生长45 d收获,测定株高后,采集心叶下第二个叶片鲜样用于测定叶绿素含量,超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性和丙二醛(MDA)含量。植株分地上部和根系,烘干粉碎后用于测定锌的含量。【结果】1)较高和极高的土壤交换性镁抑制玉米幼苗的生长。镁加入量为22l mg/kg,土壤交换性镁含量达到487.9 mg/kg时,玉米植株矮小,生长已受到胁迫,加入量为515 mg/kg,土壤交换性镁含量达到755.2 mg/kg时,玉米株高显著降低了14.5%,植株叶缘焦枯,个别植株叶片出现白色条纹,表现出明显的镁中毒症状和典型缺锌症状。2)随施镁量的增加或土壤含镁量水平的提高,玉米地上部和地下部的干重分别降低了11.9%~38.3%和4.6%~23.0%,茎叶干重的降低幅度明显高于根系。3)随施镁量的增加或土壤含镁量水平的提高,玉米叶片叶绿素含量降低了9.4%~45.9%,用量达到515 mg/kg时几乎降低了一半,导致地上部叶片出现枯黄。叶片SOD、POD、CAT活性都是先升高再迅速降低,峰值分别出现在147 mg/kg、74 mg/kg和147 mg/kg,用量达到515 mg/kg时分别降低了49.75%、48.06%和32.21%;MDA含量始终呈增加趋势,增幅在20.39%~183.58%。4)施镁显著降低了玉米幼苗的锌含量和吸收量,但对茎叶和根系的抑制程度不同。与不施镁处理相比,茎叶锌含量降低了4.05%~57.09%,吸收量降低了15.41%~73.55%;根系锌含量降低了7.55%~18.99%,吸收量降低了11.62%~37.40%,不管是锌含量还是吸收量,根系的降低幅度都明显低于茎叶。这也导致锌从根系向地上部的转运显著降低,施镁147 mg/kg时锌的转运率还有46.60%,施镁515 mg/kg时只有34.55%,仅达到不施镁水平的62%。5)随着施镁量的增加或土壤含镁量水平的提高,土壤有效锌含量也显著降低,降幅在11.4%~46.6%,特别是施镁515 mg/kg,土壤交换性镁含量达到755.2 mg/kg时,土壤有效锌含量已降至0.47 mg/kg,超过了土壤缺锌临界值(DTPA-Zn0.5 mg/kg)。【结论】绿洲盐化潮土上的玉米缺锌问题与土壤含镁量水平密切相关,随着施镁量的增加,玉米幼苗的生长受到抑制,株高、干重、叶片中的叶绿素含量和SOD、POD、CAT活性都显著降低,MDA含量显著增加。施镁抑制了玉米幼苗对锌的吸收,对茎叶的抑制程度明显高于根系,导致锌从根系向地上部的转运率显著降低。施镁降低了土壤有效锌含量,用量达到515 mg/kg时,土壤有效锌含量已低于缺锌临界值。 相似文献
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【目的】分析间作修复对镉(Cd)污染农田玉米Cd含量影响,旨在为实现污染农田边生产边修复提供基础支撑。【方法】本研究以“玉米”、“Cd”、“间作”为关键词,在“中国知网”和“Web of Science”数据库检索2006—2020年期间发表的文献,筛选出符合要求的文献33篇,获得数据770组。以玉米单作为对照,利用整合分析(meta-analysis)方法揭示间作修复对玉米Cd含量影响,明确间作植物种类、玉米品种、土壤性质和栽培措施等因素的综合效应。【结果】与单作玉米相比,大田间作修复能显著降低玉米籽粒、茎叶和根Cd含量,尤其对籽粒Cd抑制作用最显著。蜈蚣草+籽粒苋、蜈蚣草、籽粒苋和龙葵等间作植物对玉米籽粒Cd含量有显著抑制作用;东单、海禾28和绿玉269等玉米品种籽粒Cd含量也显著受间作修复抑制。在弱酸性或中性土壤上,间作修复对玉米籽粒Cd的抑制作用增强;无论是安全利用类还是严格管控类农田,间作修复均能显著降低玉米籽粒Cd含量;间作行距对玉米籽粒和茎叶Cd含量影响不显著,但0~30 cm行距显著降低根Cd含量。盆栽间作修复涉及到的间作植物以及玉米品种较多,Meta分析结果表明,盆栽... 相似文献
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外源锌对水稻植株镉的累积差异分析 总被引:1,自引:0,他引:1
通过水稻威优46盆栽种植试验,研究了外源Zn施用(0,40,80,160 mg/kg 4个水平)对Cd中度(0.72mg/kg)和重度(5.26mg/kg)污染土壤中Cd生物有效性及水稻Cd累积的差异。结果表明:施Zn对各检测指标存在影响,但土壤Cd总量仍是土壤Cd活性和水稻Cd累积差异变动的主控因素。在Cd中度污染土壤中,施Zn降低了土壤交换态Cd含量1.9%~17.0%,但水稻根表铁膜、根和糙米中Cd含量随Zn施用浓度的增大而增大,糙米Cd含量从0.09mg/kg上升到0.17mg/kg,相关分析显示糙米Cd含量与土壤交换态Zn含量显著正线性相关。在Cd重度污染土壤中,施Zn增大了土壤交换态Cd含量2.1%~4.8%,但降低了水稻各部位中Cd含量,当施Zn浓度超过80mg/kg时,糙米Cd含量可从对照组的0.45mg/kg降低到0.12mg/kg,符合国家食品污染物限量标准(GB 2762-2017)的要求,相关分析显示糙米Cd含量与土壤交换态Zn含量显著负线性相关。对2种Cd污染程度的土壤,施Zn均可增大Cd在水稻地下部的累积率,从而降低水稻地上部Cd的累积率。在Cd重度污染土壤中,可通过施Zn降低糙米Cd含量,施Zn量80mg/kg是试验中最佳施用量;但在Cd中度污染土壤中,施Zn有增大糙米Cd含量的风险。 相似文献
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不同施肥处理对球囊霉素土壤蛋白含量的影响 总被引:1,自引:0,他引:1
球囊霉素是丛枝菌根真菌分泌的一种疏水性蛋白,通过研究不同施肥处理对棕壤中Bradford反应性球囊霉素土壤蛋白(GRSP)含量的影响以及GRSP与土壤有机碳之间的关系表明:不同施肥处理显著影响土壤中GRSP的含量,无机肥、有机肥以及有机-无机肥配施均显著增加农田土壤总GRSP(T-GRSP)和易提取GRSP(EE-GRSP)的含量,以有机-无机肥配施效果最好。与CK和单施NPK处理比较,有机肥施用提高土壤T-GRSP在土壤有机质(SOM)中的比例,表明有机肥促进GRSP在土壤有机质中的累积,提高GRSP对土壤有机质的贡献。同时,不同施肥处理GRSP含量与土壤有机碳(SOC)含量呈极显著相关关系。 相似文献
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长期化肥配施不同有机肥对土壤和玉米中重金属累积的影响 总被引:1,自引:1,他引:0
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轮作提高土壤磷生物有效性改善后茬作物磷素营养 总被引:3,自引:3,他引:0
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《国际水土保持研究(英文)》2023,11(1):213-223
Arbuscular mycorrhizal fungi (AMF) can form symbiotic relationships with most crops, but their impact on the environmental migration of cadmium (Cd) in farmland is limited. A field experiment was performed in the rainy season (May–October) for two years in Cd-polluted farmland used for maize cultivation. A fungicide (benomyl) was used to specifically inhibit native AMF growth in the farmland. The growth and Cd uptake of maize and the Cd concentration and loss in runoff and interflow were investigated. Benomyl strongly and significantly inhibited AMF colonization rate in maize roots, reduced the contents of total and easily extractable glomalin-related soil protein (GRSP) in soil and the Cd uptake in maize roots, and increased the Cd uptake in shoots. Particulate Cd was the main form of Cd loss in runoff, while dissolved Cd was the main form of Cd leaching loss at depths of 20 cm and 40 cm. Inhibiting AMF increased the Cd concentration in runoff and interflow and promoted dissolved Cd loss in runoff and interflow at 20 cm depth by 34.7% and 68.0% and particulate Cd loss by 46.4% and 19.7%, respectively. Furthermore, the AMF colonization rate in maize roots and the GRSP content in soil were significantly positively correlated with Cd uptake in roots and negatively correlated with the concentration and loss of Cd in runoff and interflow. These results indicated that the benomyl-induced inhibition of native AMF promoted Cd transfer to maize shoots and increased Cd loss via runoff and interflow from polluted farmland. 相似文献
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采用室内盆栽试验,研究复合污染土壤中施加氮肥(NH4Cl)、磷肥(Na2HPO4)和钾肥(KCl)对高生物量经济作物玉米(Zeamays L.)幼苗生长以及吸收和积累重金属的影响。结果表明,不同施肥方式和浓度处理对玉米生物量变化以及吸收重金属有不同影响,NH4Cl能显著提高玉米地上部生物量、土壤Pb、Cd有效态含量,增加玉米对重金属Pb、Cd、As的提取量,最大分别可提高1.7、2.0倍和1.2倍。不同施肥方式和处理浓度均显著影响土壤有效态Pb含量,Na2HPO4在中浓度处理时显著降低土壤Pb的有效性,高浓度时则显著增加土壤有效态As含量,使玉米地上部对As的积累量有明显提高。在不同的浓度水平下,钾肥处理使玉米提取Pb含量显著高于氮肥和磷肥,其中低浓度KCl处理使玉米提取Pb量比对照增加2.4倍。对Pb-Cd-As复合污染农田土壤来说,施用氮肥(NH4Cl)处理对强化玉米的修复效果最好。 相似文献
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Heavy metal(HM) contamination in soils is an environmental issue worldwide that threatens the quality and safety of crops and human health. A greenhouse experiment was carried out to investigate the growth, mycorrhizal colonization, and Pb and Cd accumulation of pakchoi(Brassica chinensis L. cv. Suzhou) in response to inoculation with three arbuscular mycorrhizal(AM) fungi(AMF), Funneliformis mosseae, Glomus versiforme, and Rhizophagus intraradices, aimed at exploring how AMF inoculation affected safe crop production by altering plant-soil interaction. The symbiotic relationship was well established between pakchoi and three AMF inocula even under Pb or Cd stress, where the colonization rates in the roots ranged from 24.5% to 38.5%. Compared with the non-inoculated plants, the shoot biomass of the inoculated plants increased by 8.7%–22.1% and 9.2%–24.3% in Pb and Cd addition treatments, respectively. Both glomalin-related soil protein(GRSP) and polyphosphate concentrations reduced as Pb or Cd concentration increased. Arbuscular mycorrhizal fungi inoculation significantly enhanced total absorbed Pb and Cd(except for a few samples) and increased the distribution ratio(root/shoot) in pakchoi at each Pb or Cd addition level. However, the three inocula significantly decreased Pb concentration in pakchoi shoots by 20.6%–67.5% in Pb addition treatments, and significantly reduced Cd concentration in the shoots of pakchoi in the Cd addition treatments(14.3%–54.1%), compared to the non-inoculated plants.Concentrations of Pb and Cd in the shoots of inoculated pakchois were all below the allowable limits of Chinese Food Safety Standard.The translocation factor of Pb or Cd increased significantly with increasing Pb or Cd addition levels, while there was no significant difference among the three AMF inocula at each metal addition level. Meanwhile, compared with the non-inoculated plants, AMF inocula significantly increased soil p H, electrical conductivity, and Pb or Cd concentrations in soil organic matter in the soils at the highest Pb or Cd dose after harvest of pakchoi, whereas the proportion of bioavailable Pb or Cd fraction declined in the AMF inoculated soil. Our study provided the first evidence that AM fungi colonized the roots of pakchoi and indicated the potential application of AMF in the safe production of vegetables in Pb or Cd contaminated soils. 相似文献
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Huang H Zhang S Chen BD Wu N Shan XQ Christy P 《Journal of agricultural and food chemistry》2006,54(25):9377-9382
A greenhouse pot experiment was carried out to investigate the effect of the arbuscular mycorrhizal fungus Glomus etunicatum on the uptake of atrazine (ATR) and cadmium (Cd) from soil by maize (Zea mays L.). Mycorrhizal colonization led to an increase in the accumulation of Cd and ATR in maize roots but a decrease in the shoots. Atrazine alleviated the adverse effects of Cd on maize growth, and this was more pronounced in the inoculated plants. An increase in Cd accumulation by maize roots was observed when ATR was also present. After harvest, the residual ATR concentration in the soil decreased markedly. With mycorrhizal inoculation the amount of residual ATR decreased more in the bulk soil but less in the rhizosphere soil compared to the noninoculated controls. Cadmium application significantly decreased the ATR residual concentrations in both the rhizosphere and bulk soils irrespective of inoculation treatment. 相似文献
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菌根对紫色土上间作玉米生长及磷素累积的影响 总被引:4,自引:2,他引:4
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。 相似文献
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镉胁迫对荻生长、镉富集和土壤酶活性的影响 总被引:1,自引:1,他引:0
采用盆栽土培法,从播种开始培育132d后,研究0,3,6,9mg/kg镉胁迫对荻的生长、镉富集与分布和土壤酶活性的影响。结果表明:荻耐性指数随处理浓度的增加先上升后下降,镉浓度≤6mg/kg时,促进荻生长,镉浓度为9mg/kg时,抑制荻生长。叶绿素、丙二醛和可溶性糖含量均随处理浓度的增加先升高后降低,在镉浓度为6mg/kg时达到最大值;类胡萝卜素含量为先降低后升高,在6mg/kg时达最小值。荻根部铜、锌和铁含量均随处理浓度的增加而升高,地上部铜和铁含量先降低后升高,而锌含量持续降低。根部和地上部镉含量随镉处理浓度增加呈线性增加趋势,且根部镉含量均高于地上部;不同浓度镉处理荻根部富集系数均大于1,但地上部富集系数和转运系数均小于1;根部镉积累量随处理浓度的增加先升高后降低,在镉浓度为6mg/kg时达到最大值,地上部镉积累量持续升高,荻体内镉主要分布在根部。镉处理组的土壤脲酶和过氧化氢酶活性与对照相比总体无显著差异(P0.05),镉浓度为6mg/kg和9mg/kg对土壤脲酶活性有一定促进作用,但会抑制过氧化氢酶活性,根际土壤酶活性总体高于非根际土壤酶。研究表明,荻对镉有较强的耐性,且根部对镉有较强的富集能力,因此,荻在土壤镉污染稳定化修复方面具有一定的应用潜力。 相似文献
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采用温室盆栽试验方法,研究了镉(Cd)、锌(Zn)污染土壤中,8种不同丛枝菌根真菌(AMF)Glomus lamellosum(G.la)、Acaulospora mellea(A.m)、Glomus mosseae(G.m)、Glomus intraradices(G.i)、Glomus etunicatum(G.e)、Glomus constrictum(G.c)、Diversispora spurcum(D.s)、Glomus aggregatum(G.a)对紫花苜蓿(Medicagosativa L.)吸收Cd、Zn的影响。结果表明,Cd、Zn污染下AMF仍然明显侵染紫花苜蓿,并促进紫花苜蓿对Cd、Zn的吸收积累,但不同AMF影响的效应和植株不同部位对重金属的吸收积累规律存在差异。AMF处理下紫花苜蓿根部Cd、Zn含量和积累量明显增加,但地上部Cd、Zn的含量则降低,地上部Zn的积累量也减小,这表明AMF处理减弱了Cd、Zn由根部向地上部的运移,减轻了植物地上部毒害。接种AMF条件下,植株尤其是根部生物量增加是Cd、Zn在其体内含量和积累量增加的重要因素,不同种类AMF促进植株生物量增加的幅度不同,导致植株对Cd、Zn的积累和抗性存在差异。 相似文献