接种丛枝菌根真菌配合氮肥减施对辣椒–大豆间作体系氮素吸收的影响

【目的】叶菜及经济效益较高的茄果类如辣椒、番茄等占云南省设施蔬菜栽培面积的62.19%,蔬菜连作以及氮肥的大量施用制约了设施蔬菜高产优质,降低了土壤质量。研究接种丛枝菌根真菌(AMF)和氮水平对作物生长、土壤氮残留及生物相关特性的影响,为提高设施蔬菜产量,减少氮肥施用量,降低土壤氮残留提供理论依据。【方法】以大豆和辣椒间作为种植模式进行盆栽试验。设计了接种AMF、氮肥用量、种植模式三因素试验。在大豆、辣椒单作、大豆辣椒间作3个种植模式下,分别设3个施氮(N)水平：0、100、200 mg/kg土(N0、N1、N2);每个氮水平下,再设土壤不接种、接种AMF菌剂处理(NM、AMF),共组成18个处理。在蔬菜收获期,取样测定蔬菜生物量、根系长度、AMF侵染率,测定根际土壤硝态氮、铵态氮含量、氮代谢酶活性以及菌丝密度。【结果】接种AMF、施氮量、种植模式及三者的交互作用对辣椒和大豆根系AMF侵染率、植株生物量和根长的影响都达到显著水平(P<0.01)。N1处理显著增加了辣椒、大豆根系的菌根侵染率,且在间作条件下的增幅最高;N1处理下,接种AMF和间作均显著增加了辣椒、大豆植株生物量和氮...     

间作作物菌根菌丝对红壤磷形态的影响

丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)在植物与土壤系统中扮演着重要的角色,能促进寄主植物对养分尤其是磷(P)的吸收。间作在提高土壤P素利用及增产增收等方面具有重要作用。本研究通过三室隔网分室盆栽模拟试验,在玉米/大豆间作种植体系下,对菌丝室进行不同形态P处理[不施P(P0)、施用无机磷(IOP50)、施用有机磷(OP50)],同时在根室进行不同AMF处理[不接种(NM)、接种Funneliformis mosseae(FM)],研究了不同外源形态P添加和AMF处理下,菌根作物对菌丝室红壤中不同形态P吸收利用的影响。结果表明:与单作-FM-IOP50处理相比,间作-FM-IOP50处理下的玉米P吸收量显著增加150.2%,大豆P吸收量增加24.5%;除大豆单作-P0处理外,接种FM均明显降低菌丝室土壤有效磷含量。除大豆单作-FM处理外,施用IOP50使土壤有效磷含量在单作条件下最高,而在间作条件下则最低。对红壤P形态的分级结果表明,接种AMF均一定程度增加了Ca_2-P、Al-P、Org-P、O-Al-P、Ca_(10)-P的含量,而间作则显著提高了作物对土壤Ca_2-P、Fe-P的吸收;相比其他处理,土壤Ca_2-P、Org-P、O-Al-P含量在间作-FM-IOP50组合处理下较高(P0.05)。相关分析显示,Ca_2-P与玉米植株P吸收量呈显著负相关,而O-Al-P与大豆植株P吸收量呈显著负相关。总之,接种FM、磷肥施用与间作均在一定程度上促进了宿主作物对P的吸收累积。其中间作-FM-IOP50组合是促进间作玉米生长、P素吸收及Ca_2-P、Org-P、O-Al-P增加的最佳组合,通过促进无机磷的活化而改善作物对P素的吸收利用,有效削减土壤P素的残留,若将其应用于滇池流域,可望减少P素的流失。     

隔根与接种 FM 对红壤上玉米/大豆植株生长及氮素利用的影响

【目的】探讨接种摩西管柄囊霉 (Funneliformis mosseae,FM) 和不同隔根处理对红壤上间作植株生长、植株氮吸收量和土壤氮的影响。【方法】采用盆栽模拟试验,设不同菌根处理[不接种 (NM)、接种 (FM)]与玉米/大豆不同隔根处理 (根系不分隔、部分分隔、完全分隔)。【结果】接种 FM 的玉米、大豆根系均有一定的侵染,菌根侵染率在部分分隔处理下最低。间作根系的分隔处理对玉米和大豆的菌根依赖性产生了明显影响,大豆的菌根依赖性随间作交互作用强度的加大而增加。无论何种隔根处理,接种 FM 均显著增加了玉米植株生物量,其地上部生物量高出 NM 处理 11.7%～81.4%,根系生物量高出 NM 处理 18.8%～166.7%。根系分隔处理下,接种 FM 均显著降低了大豆生物量。同一隔根方式下,接种 FM 明显提高了玉米的植株氮吸收量和根系氮吸收效率。在不分隔处理下,接种 FM 显著增加了大豆的地上部氮吸收量,但在部分分隔和完全分隔处理下则反而有所下降;在部分分隔处理下,接种 FM 显著降低了大豆根系的氮吸收量,在不分隔和完全分隔处理下亦呈下降趋势。在部分分隔处理下,接种 FM 显著提高了大豆根系氮吸收效率,在完全分隔处理下反而有明显下降,且在 NM–不分隔处理下的大豆根系氮吸收效率最低。相关分析显示,玉米、大豆植株氮吸收量与土壤碱解氮含量呈显著负相关。【结论】接种丛枝菌根真菌 (AMF) 和隔根方式的组合能不同程度地影响玉米和大豆对氮的吸收利用及间作植株的生长,并能对土壤有效氮产生较大影响。所有的复合处理中,AMF和间作根系部分分隔处理组合对玉米和大豆生长及氮素利用的促进作用较好,并能有效降低土壤碱解氮的残留。     

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。     

AMF和间作对作物产量和坡耕地土壤径流氮磷流失的影响

坡耕地氮、磷流失是导致河湖污染的主要因子。该文在坡耕地开展田间小区试验,定量研究了丛枝菌根真菌(AMF)与玉米大豆间作系统对径流氮、磷流失的协同削减贡献,可为滇池流域农业面源污染控制提供科学理论依据。结果表明,与单作玉米-抑菌处理相比,间作玉米-未抑菌处理显著提高了玉米的生物量;与单作-抑菌处理相比,玉米大豆间作-未抑菌处理均显著增加了植株茎叶、籽粒磷吸收量及茎叶、根系氮吸收量。与单作玉米-抑菌处理相比,间作玉米-未抑菌处理的土壤全磷、全氮的削减量分别为0.25、0.11 g/kg,径流总磷、总氮浓度的削减量分别为0.13、12.94 mg/L;与单作大豆-抑菌处理相比,间作大豆-未抑菌处理的土壤全磷、全氮的削减量分别为0.07、0.11g/kg,径流总磷、总氮浓度的削减量分别为0.27、24.80mg/L。与单作大豆-抑菌处理相比,玉米大豆间作-未抑菌处理的总磷、总氮流失量分别减少了0.51、19.93 kg/hm~2。经相关分析可知,径流颗粒态磷浓度与植株各部分磷吸收量均呈负相关,且与土壤全磷、速效磷含量也呈负相关性;径流各形态氮浓度与植株各部分氮吸收量、菌丝密度和球囊霉素均呈负相关。可见,丛枝菌根真菌协同玉米大豆间作模式能够通过促进植株对氮、磷养分的吸收而减少土壤氮、磷的残留,进而阻控了氮磷随径流迁移的损失。     

外源磷与AMF对间作玉米种植红壤无机磷形态的影响

通过三室隔网分室盆栽模拟试验,研究了分室不同磷(P)源[无机磷(磷酸二氢钾)和有机磷(大豆卵磷脂),P添加量均为50 mg·kg-1]添加和根室接种不同丛枝菌根真菌(AMF)[Glomus mosseae(GM)、Glomus etunicatum(GE)]对间作玉米种植红壤无机磷形态的影响。结果表明:无论接种与否,间作处理使根室土壤有效磷含量显著降低,说明间作能够促进玉米植株对土壤有效磷的吸收,且有效磷的耗竭从根际土壤开始。除OP50-单作玉米处理的Org-P外,接种AMF均一定程度增加了各形态无机磷含量。此外,根室土壤有效磷的主要组分为Ca2-P、Al-P和Org-P,其中Org-P与土壤有效磷有着极显著的负相关关系。     

土著AMF与玉米/大豆间作对红壤径流氮形态变化的响应

为了研究土著丛枝菌根真菌(arbuscular mycorrhizal fungi, AMF)与间作模式对坡耕地红壤径流氮形态变化的响应,通过自然降雨条件下的径流小区模拟试验,设置不同种植模式(单作玉米、玉米/大豆间作、单作大豆)和不同菌根处理(抑菌(喷施苯菌灵)、未抑菌)进行研究。根据2017年6—9月采集的6次径流水样,分析比较菌根与间作复合处理下径流氮形态变化迁移特征。结果表明:在6次取样时间内,地表径流总氮浓度呈先上升后下降的趋势,硝态氮浓度呈先上升后下降再上升的趋势,而铵态氮浓度则表现出整体下降的趋势,并趋于平缓。所有复合处理中,间作-未抑菌处理的径流总氮浓度最低,较单作玉米-抑菌与单作大豆-抑菌处理显著降低35.0%和42.1%。无论何种种植模式,未抑菌处理的径流硝态氮浓度均明显低于抑菌处理,其中间作-未抑菌处理的径流硝态氮浓度较抑菌处理下的单作玉米与单作大豆处理显著降低,降幅分别为26.2%和33.9%。无论是否抑菌,间作处理的径流铵态氮浓度均低于单作玉米与单作大豆处理,间作-未抑菌处理下其浓度最低,较单作玉米-抑菌与单作大豆-抑菌处理明显降低34.8%和28.2%。由此可见,土著AMF与玉米/大豆间作对径流氮流失具有一定的协同削减潜力。     

设施大棚间作玉米对丛枝菌根网络形成及辣椒疫病防治的影响

丛枝菌根（Arbuscular mycorrhizal,AM）真菌对辣椒疫病等土传病害具有生防潜力,但由于难以纯培养而未能实现规模化生产应用,如能调动土著AM真菌的抑病功能则对实际生产具有重要指导意义。依托重庆石柱辣椒科技园,研究设施大棚中间作玉米对土著AM真菌生长及辣椒疫病防治的影响。结果表明,与辣椒单作相比,间作玉米处理辣椒根系AM真菌侵染率、根际AM真菌数量与土壤磷酸酶活性以及小区作物养分总吸收量均显著提高,辣椒疫病发病率与病情指数、单株辣椒的磷吸收量及果实生物量均显著下降,其中种植密度更高的等垄宽间作处理两种作物根系AM真菌侵染率、小区玉米产量及作物养分总吸收量均显著高于等行距间作处理,辣椒疫病发病率与之正好相反。设施环境下间作玉米或能通过促进AM真菌生长及其对辣椒根系的侵染来增强其对辣椒疫病的防治功效,其中等垄宽间作处理具有更好的经济效益。     

丛枝菌根真菌(AMF)对玉米/蚕豆和玉米/稗草互作体系植物生长的反馈调节

【目的】丛枝菌根真菌(arbuscular mycorrhizal fungi,简称AMF)对农田生态系统中作物的生长起着重要作用。不同宿主植物和作物种植方式对土壤中菌根真菌具有一定的选择性,从而影响菌根真菌对后茬植物生长的反馈效应。间作体系是农业生产中增产增效的一种重要的种植模式,明确AMF在间作体系中对植物生长的反馈作用,对理解间作体系地上-地下相互作用具有重要的意义。【方法】本试验采用三种常见的AMF(Funneliformis mosseae、Rhizophagus intraradices和Claroideoglomus claroideum)混合接种剂,在单作(玉米,蚕豆,稗草)和间作(玉米/蚕豆和玉米/稗草)条件下,通过两个阶段(AMF驯化及反馈)的反馈试验,模拟研究了三种植物在单作和间作中的反馈强度及AMF的调节作用。【结果】在驯化阶段,玉米/稗草间作体系中,与单作相比,间作玉米地上部生物量减少了64.0%,间作稗草地上部生物量增加了47.8%。玉米/蚕豆间作体系中,与单作相比,两者作物地上部生物量增量分别达21.7%和38.3%。反馈阶段中,单作时,与灭菌处理相比接种AMF后玉米、稗草和蚕豆的地上部生物量分别增加602.3%、 80.6%和21.1%; 间作时,与灭菌处理相比接种AMF后玉米地上部生物量平均增加613.1%,稗草增加80.7%, 蚕豆增加21.4%。单作玉米存在负到零反馈作用,与灭菌处理相比,接种AMF后玉米负反馈作用减弱至零反馈作用。从单作到间作,玉米的反馈作用由负变为零到正反馈作用。【结论】玉米和稗草之间是竞争关系,玉米处于竞争弱势稗草处于竞争优势。玉米对AMF的响应最为强烈,其次是稗草,最后是蚕豆。接种AMF或与其它植物间作后均减弱玉米的负反馈作用,表明丛枝菌根真菌可通过减弱单作玉米的负反馈实现间作增产。     

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。     

Role of arbuscular mycorrhizal network in carbon and phosphorus transfer between plants

Intercropping with aerobic rice or arbuscular mycorrhizal fungi (AMF) colonization alleviated watermelon wilt disease, which is likely attributed to rice root exudates or AMF depressing watermelon wilt pathogen. However, it is unclear whether rice root exudates transfers to watermelon rhizosphere soil and whether AMF affects the transfer of rice root exudates to watermelon rhizosphere soil. A rhizobox experiment, with aerobic rice under ¹⁴?CO₂, was conducted to investigate the effect of AMF colonization on carbon (C) transfer from rice to watermelon and on phosphorus (P) uptake by both watermelon and rice. The rhizobox was separated into labelling side (L side) and sampling side (S side) by inserting nylon mesh in the middle of the box. The L side was planted with aerobic rice, and the S side was aerobic rice (monocropping) or watermelon (intercropping). When ¹⁴?CO₂ was added to rice canopy at the L side, ¹⁴?C activities of rice roots and rhizosphere soils in the L side were increased by intercropping with watermelon or AMF colonization. The ¹⁴?C was detected in roots and rhizosphere soils of rice and watermelon in the S side, but no differences were found among different treatments. ¹⁴?C activities in leaves were improved by AMF inoculation in the S side, regardless of rice or watermelon. Mycorrhizal colonization stimulated P absorption and translocation to rice in intercropping system. These findings suggest that AMF colonization could increase C transfer from rice to watermelon while intercropping with watermelon could promote AMF colonization and P uptake by rice.     

小麦蚕豆间作施氮对小麦氮素吸收、累积的影响

田间试验研究了小麦蚕豆间作及4种施氮水平(0、90 kg·hm^-2、180 kg·hm^-2和270 kg·hm^-2)对小麦植株体内氮含量、小麦地上部氮素累积及氮素养分吸收速率的影响。结果表明: 间作显著增加了小麦地上部植株的氮含量, 与单作相比, 分蘖期、拔节期、抽穗期和成熟期不同施氮处理间作小麦植株的氮含量平均比单作提高20.0%、21.9%、21.4%和17.1%; 抽穗期和成熟期间作小麦叶、茎和穗中的氮含量均高于单作; 间作显著提高了小麦植株的氮素累积量和氮素吸收速率, 与单作相比整个生育期间作小麦氮素累积量增幅为15.5%~30.4%。无论单作还是间作, 小麦植株氮含量和氮素累积量随氮肥用量的增加而增加, 施氮对单作小麦植株氮含量、氮素累积量和氮素吸收速率的影响大于间作, 随着氮肥用量的增加, 间作优势逐渐减弱; 单作小麦植株的氮素吸收速率随氮肥用量的增加而增加, 间作小麦植株的氮素吸收速率随氮肥用量的增加呈先增后降的趋势。本研究表明, 间作和施氮促进了小麦对氮素的吸收利用, 间作优势与施氮水平密切相关, 间作体系中氮素养分的合理投入是发挥间作优势的关键。     

Olive mill wastewater spreading and AMF inoculation effects in a low-input semi-arid Mediterranean crop succession

ABSTRACT

The study aimed to evaluate, in a marginal semi-arid Mediterranean agro-ecosystem (Sicily-Italy), the effects of arbuscular mycorrhizal fungi (AMF) inoculation and raw olive mill wastewater (OMW) (40 and 80 m³ ha^?1) on forage (durum wheat-snail medick intercropping) yield, and grain production of broad bean and chickpea. AMF inoculation significantly increased (+13.6%) forage dry biomass and durum wheat nitrogen (+22.8%) and phosphorus (+32.5%) uptake. AMF inoculation, significantly promoted broad bean phosphorus uptake (+11.5%) and root nodule number (+13.9%) in the absence of OMW. OMW spreading reduced weeds in the forage (?31.3%), root nodule number (?29.7%) and dry weight (?22.7%) in broad bean. OMW also significantly increased snail medick dry biomass (+19.3%) as compared to control treatments (0, 40 and 80 m³ H₂O ha^?1, average production 361 g m^?2), and broad bean grain yield with a production of 2.46 ± 0.12 and 1.94 ± 0.09 Mg ha^?1 with and without OMW, respectively. During the experiment AMF colonization was not affected by OMW volumes. The results obtained showed that in a marginal Mediterranean agro-ecosystem: 1) OMW, notwithstanding spreading volumes, is a valuable amendment to maximize legume yield while 2) AMF inoculation is a valuable practice to improve biomass production and N and P uptake in wheat.     

A study on the improvement iron nutrition of peanut intercropping with maize on nitrogen fixation at early stages of growth of peanut on a calcareous soil

Abstract

A glasshouse study employing a split-root technique was conducted to investigate the influence of intercropping with maize (Zea mays L.) in a calcareous soil on N₂ fixation by peanut (Arachis hypogaea L.) at early stages of growth. In this intercropping system, competitive interactions between maize and peanut for N and improvement of Fe uptake were likely to be important factors affecting N₂ fixation of peanut. The experiment was comprised of three treatments which included treatment I: peanut monocropping; treatment II: maize/peanut intercropping (the major and the minor compartments with low N, 50 mg kg^?1); treatment III: maize/peanut intercropping (the major compartment with low N, 50 mg kg^?1 and the minor compartment with high, N 200 mg kg^?1). The minor compartment of treatment III was fertilized with 200 mg kg^?1 N for reducing or eliminating the competition of N coming from intercropping maize. Intercropping with maize corrected Fe chlorosis of peanut by significantly increasing plant Fe concentration and uptake. Compared with the monocropping treatment, iron uptake increased from intercropping treatment II and III by 22 and 24% per plant, 30 and 29% shoots, 38 and 60% nodules. Iron uptake by the root nodules was especially enhanced in the intercropping system. In contrast, intercropping with maize had little effect on NO₃ ^?1-N concentrations in the soil rhizosphere of peanut or on N concentrations and uptake by peanut compared with plants in monoculture. The results indicate that the improvement in Fe nutrition was an important factor promoting N₂ fixation by peanut in the intercropping system at the flowering stage of peanut growth, and that competition for N by intercropped maize had little effect on N₂ fixation by peanut under the experimental conditions.     

间作系统氮调控对小麦氮钾营养及条锈病发生的影响

通过探讨间作和施氮对小麦植株氮钾养分吸收、分配及条锈病发生的影响,明确氮钾养分吸收和分配与小麦条锈病发生的关系,以期为合理施肥实现控病增产提供理论依据。在云南安宁和峨山两地布置田间小区试验,研究3种施氮水平(0 kg×hm~(–2)、90 kg×hm~(–2)和180 kg×hm~(–2))和2种种植模式(小麦单作、小麦||蚕豆间作)对小麦植株氮钾含量与分配以及小麦条锈病发病率及病情指数的影响。结果表明,施氮增加了小麦产量,且间作增产效应显著;与单作相比,间作小麦平均显著增产31.9%(安宁)和18.0%(峨山);小麦||蚕豆间作产量优势明显,土地当量比为1.20～1.37(安宁)和1.16～1.27(峨山),但间作增产优势随施氮量增加而降低。施氮在提高产量的同时也加重了小麦条锈病危害,随施氮量增加,单、间作小麦条锈病的发病率和病情指数均呈增加趋势。间作有较好的控病效果,与单作相比,间作小麦发病率、病情指数分别显著降低9.6%～22.0%、23.7%～33.7%(安宁)和29.5%～36.5%、29.3%～39.6%(峨山)。施氮增加了小麦植株氮含量,且主要累积在叶片,叶片氮含量占氮吸收总量的41.3%～47.4%(安宁)和35.9%～44.1%(峨山);但间作显著降低小麦植株氮含量,并显著提高钾含量,因而显著降低了叶片氮/钾比。相关性分析表明,小麦条锈病发病率和病情指数与植株氮含量、叶片氮/钾比呈显著正相关,与钾含量呈极显著负相关。施氮增加了小麦植株氮含量,提高了叶片氮/钾比,进而加剧小麦条锈病发生;而间作则通过增加钾含量,降低小麦植株氮含量及叶片氮/钾比,平衡小麦植株内氮钾养分而增强小麦对条锈病的抗性。     

Arbuscular mycorrhizal fungi improve the growth and phosphorus uptake of mung bean plants fertilized with composted rock phosphate fed dung in alkaline soil environment

Abstract

Inoculation effect of arbuscular mycorrhizal fungi (AMF) on phosphorus (P) transfer from composted dung of cattle with a diet supplemented with powdered rock phosphate (RP) and their successive uptake by mung bean plants was assessed in alkaline soil. The efficacy of composted RP fed dung alone or/and in combination with AMF inoculums containing six different species were compared with SSP in six replicates per treatment in pots. The results showed that the association of AMF with composted RP fed dung had a positive effect on mung bean shoot (3.04?g) and root (2.62?g) biomass, chlorophyll (a, b), carotenoid contents and N (58.38?mg plant^?1) and P (4.61?mg plant^?1) uptake. Similarly, the percent roots colonization (56%) and nodulation of mung bean plant roots and their post-harvest soil properties were also improved by the inoculation of AMF together with composted RP fed dung. It is concluded that the combined application of AMF with composted RP fed dung has almost the same effect as SSP for improving mung bean plants growth and their nutrients uptake. Moreover, AMF inoculants can be used as a suitable biofertilizer in combination with locally available organic sources of fertilizers for improving P status and growth of plants in alkaline soils.     

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。     

减量施氮与间作模式对甜玉米AMF侵染和大豆结瘤及作物氮磷吸收的影响

通过4季(2014年秋季,2015年春、秋,2016年春季)大田定位试验,对比研究了两种施氮水平[300 kg·hm~(-2)(N1:减量施氮)和360 kg·hm~(-2)(N2:常规施氮)]和4种种植模式[甜玉米|菜用大豆2∶3(S2B3)、2∶4(S2B4)间作、甜玉米单作(SS)和菜用大豆单作(SB)]对华南地区甜玉米和大豆产量、甜玉米AMF侵染率、大豆根瘤菌等的影响。结果表明,减量施氮间作处理的甜玉米产量显著高于单作。2016年春季S2B3-N1处理大豆的根瘤数显著高于S2B3-N2处理;4季减量施氮和间作处理对大豆根瘤干重均没有显著影响。2015年春秋两季两种施氮水平间作处理的甜玉米生物量和氮含量均显著高于相应的单作处理;且减量施氮间作模式甜玉米AMF侵染率显著高于常规施氮处理。2015年秋季减量施氮间作模式处理甜玉米的磷含量显著高于单作处理。减量施氮与间作菜用大豆显著提高了甜玉米氮和磷含量、AMF侵染率、生物量及产量,是华南地区甜玉米资源高效利用的可持续生产模式。     

Response of Mucuna pruriens to symbiotic nitrogen fixation by rhizobia following inoculation in farmers' fields in the derived savanna of Benin

 Leguminous cover crops such as Mucuna pruriens (mucuna) have the potential to contribute to soil N and increase the yields of subsequent or associated cereal crops through symbiotic N fixation. It has often been assumed that mucuna will freely nodulate, fix N₂ and therefore contribute to soil N. However, results of recent work have indicated mucuna's failure to nodulate in some farmers' fields in the derived savanna in Benin. One of the management practices that can help to improve mucuna establishment and growth is the use of rhizobial inocula to ensure compatibility between the symbiotic partners. Experiments were conducted in 1995 and 1996 on 15 farmers' fields located in three different villages (Eglimé, Zouzouvou and Tchi) in the derived savanna in Benin. The aim was to determine the response of mucuna to inoculation and examine the factors affecting it when grown in relay cropping with maize. The actual amount of N₂ fixed by mucuna in the farmers' fields at 20 weeks after planting (WAP) averaged 60 kg N ha^–1 (range: 41–76 kg N ha^–1) representing 55% (range: 49–58%) of the plant total N. The result suggested that mucuna in these farmers' fields could not meet its total N demand for growth and seed production only by N₂ fixation. It was estimated that after grain removal mucuna led to a net N contribution ranging from –37 to 30 kg N ha^–1. Shoot dry weight at 20 WAP varied between 1.5 and 8.7 t ha^–1 and N accumulation ranged from 22 to 193 kg N ha^–1. Inoculation increased shoot dry matter by an average of 28% above the uninoculated treatments, but the increase depended on the field, location and year. For the combinations of inoculated treatments and farmers' fields, the response frequency was higher in Eglimé and Tchi than in Zouzouvou. The response to inoculated treatments was dependent on the field and inversely related to the numbers of rhizobia in the soil. Soil rhizobial populations ranged from 0 to >188 cells g^–1 soil, and response to inoculation often occurred when numbers of indigenous rhizobia were <5 cells g^–1 soil. In two farmers' fields at Zouzouvou where extractable P was below 10 μg g^–1 soil, mucuna did not respond to rhizobial inoculation despite a higher population of rhizobia. Significant relationships between mycorrhizal colonization, growth and nodulation of mucuna were observed, and inoculated plants with rhizobia had a higher rate of colonization by arbuscular mycorrhizal fungi (%AMF) than uninoculated ones. Therefore, it was shown that mucuna will establish and fix N₂ effectively in those fields where farmer's management practices such as good crop rotation and rhizobial inoculation allow a build up of AMF spores that might lead to a high degree of AMF infection and alleviate P deficiency. Received: 14 June 1999     

Effect of indigenous mycorrhizal colonization on phosphorus‐acquisition efficiency in soybean and sunflower

Despite a general consent about the beneficial contribution of arbuscular mycorrhizal fungi (AMF) on natural ecosystems, there is an intense debate about their role in agricultural systems. In this work, soybean (Glycine max L.) and sunflower (Helianthus annuus L.) field plots with different P availabilities were sampled across the Pampean Region of Argentina (> 150 samples from Mollisols) to characterize the relationship between available soil P and indigenous mycorrhizal colonization. A subsequent pot experiment with soybean and sunflower was carried out to evaluate the effect of P supply (0, 12, and 52 mg P kg^–1) and AMF inoculation on AMF colonization and crop responsiveness to P in a Mollisol. Both crops showed high AMF colonization in the field (average: 55% for soybean and 44% for sunflower). While mycorrhizal colonization in soybean was significantly and negatively related to available soil P, no such trends were apparent in sunflower. Also, total biomass was 3.5 and 2.0 times higher in mycorrhizal than in nonmycorrhizal pot‐grown soybean under low‐ and medium‐P conditions, respectively. Sunflower, on the other hand, did not benefit from AMF symbiosis under medium and high P supply. While mycorrhization stimulated P‐uptake efficiency in soybean, the generally high P efficiency in sunflower was not associated with AMF symbiosis.