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1.
采用水培方法,研究了不同磷水平下小麦-蚕豆间作体系根系形态变化及其与内源激素的相关关系。结果表明: 与单作小麦相比,在低磷(1/2P)水平下,小麦-蚕豆间作能显著增加小麦的根长,显著减少小麦根系的平均直径,显著增加根系的表面积;在常规磷(P)水平下,间作能显著降低小麦根系的平均直径,有增加小麦根长和根表面积的趋势;与单作蚕豆相比,间作能明显促进蚕豆根系的增长,同时增加蚕豆根表面积。在1/2P水平下,间作能显著提高小麦和蚕豆根系中的生长素(IAA)、脱落酸(ABA)、水杨酸(SA)和茉莉酸(JA)含量;在P水平下,间作能显著提高小麦根系中的IAA、ABA和JA含量,单、间作小麦根系中的SA含量没有显著差异,间作显著增加了蚕豆根系中ABA和SA含量,单、间作蚕豆根系中的IAA和JA含量无显著差异。单作条件下,小麦和蚕豆根系中的内源激素(IAA、ABA、SA和JA)含量与其根系形态(根长、根平均直径和根表面积)无显著相关性;间作条件下,小麦和蚕豆根系中的IAA含量与根长和根表面积之间存在明显的正相关关系。由此可见,小麦-蚕豆间作能够诱导小麦和蚕豆根系IAA的增加。这种变化可能是驱动间作系统根系形态变化的重要因子。 相似文献
2.
不同磷水平下玉米-大豆间作系统根系形态变化 总被引:1,自引:0,他引:1
本研究通过盆栽试验,探讨不同磷水平(0、50、100 mg P2O5·kg-1,分别用P0、P50、P100表示)下玉米与大豆间作系统根系形态的变化及其与磷吸收的关系,以明确玉米-大豆间作系统促进磷吸收的作用机制。结果表明: 不同磷水平下,间作显著改变了玉米和大豆的根系形态参数,提高了大豆根冠比。与单作模式相比,间作使玉米和大豆的根长、根表面积、根体积、根系干重分别显著增加25.6%、22.0%、39.2%、34.3%和28.1%、29.7%、37.3%、62.3%,而平均根直径分别显著降低15.2%和11.7%。不同磷水平下,磷素吸收当量比(LERP)>1,玉米-大豆间作具有明显的磷吸收优势,且LERP不受磷水平调控。间作诱导根系形态改变与磷吸收增加密切相关,其中玉米根系表面积增大、大豆根系长度增加是驱动玉米-大豆间作系统磷高效吸收的主要机制。根据回归方程,玉米根表面积和大豆根系长度增大10%,磷吸收量提高5%~10%。因此,与中等施磷水平(P100)下的单作相比,玉米-大豆间作条件下磷肥减施1/2(P50)并未降低玉米的磷吸收量。综上,玉米-大豆间作体系在减施磷肥条件下具有维持作物磷吸收的潜力。 相似文献
3.
小麦/蚕豆间作作物生长曲线的模拟及种间互作分析 总被引:3,自引:0,他引:3
物种间的相互作用与间作产量优势的形成密切相关,但很少有人注意到种间互作动态.本研究通过2年田间定位试验,运用Logistic分析模拟了不同种植模式(小麦单作、蚕豆单作和小麦/蚕豆间作)和不同磷水平下[P0,施磷量(P2O5)为0 kg·hm-2(对照);P1,施磷量(P2O5)为45 kg·hm-2;P2,施磷量(P2O5)为90 kg·hm-2]单间作小麦、蚕豆的生长模型,分析了作物种间互作的动态变化.结果表明: 小麦/蚕豆间作使小麦产量提高了10.5%~18.6%,蚕豆产量却降低了4.8%~12.3%,但间作系统仍具有产量优势,土地当量比(LER)和相对拥挤系数(K)分别为1.01~1.15 和1.12~3.20.小麦和蚕豆的产量及关键生长参数均受磷水平调控,但LER和K并不受磷水平影响.与单作相比,间作小麦的最大生长速率(Rmax)和最初生长速率(r)分别提高21.8%~38.7%和20.7%~38.9%,但间作对蚕豆的关键生长参数无影响.在小麦、蚕豆的生长初期,不同磷水平下,单间作作物的生长曲线无差异;间作群体以种间竞争为主,无间作生物量优势(LER<1,K<1).当蚕豆达到最大生长速率(Tmax)后,间作显著提高了小麦的生长速率,降低了小麦的种内竞争压力,表现出间作生物量和产量优势(LER>1,K>1).总之,在不同的生长发育阶段,小麦、蚕豆的相互作用不同,间作提高了中后期小麦的生长速率,为间作优势的形成奠定了基础. 相似文献
4.
间甲酚及施磷对小麦间作蚕豆土壤微生物和酶活性的影响 总被引:4,自引:2,他引:2
通过盆栽试验,研究了不同磷水平下化感物质间甲酚对小麦间作蚕豆和单作小麦、单作蚕豆土壤微生物和酶活性的影响。结果表明,间甲酚对不同模式生长盛期细菌和微生物总数表现为化感促进作用,对真菌表现为化感抑制作用,随施磷量的增加间甲酚对土壤微生物的化感促进作用降低;不同模式生长盛期土壤微生物数量在施磷量为100mg/kg土的处理中最高,但成熟期施磷量为200mg/kg土的处理最高;间作较单作具有保持较高土壤细菌和微生物总数的作用,施磷水平越高间作增大微生物数量的效果越大;间甲酚对土壤微生物多样性具有明显降低作用,间作土壤的微生物多样性低于单作。间作具有较高的弱化间甲酚对土壤过氧化氢酶化感负效应的作用,施磷可增强土壤过氧化氢酶活性;磷素作用下土壤脲酶活性增强,间甲酚对单作蚕豆和间作土壤脲酶活性具有促进作用,但弱化了施磷对脲酶活性的增强作用;增施磷肥可弱化间甲酚对单作蚕豆和间作土壤酸性磷酸酶的化感负效应,对单作小麦土壤酸性磷酸酶活性的影响相反。间甲酚对不同模式土壤微生物和酶活性的影响在作物成熟期显著下降,说明随时间的推移土壤中间甲酚的作用力在不断弱化。 相似文献
5.
小麦-蚕豆间作对根系分泌低分子量有机酸的影响 总被引:5,自引:0,他引:5
通过盆栽试验收集了不同生育期单作和间作小麦、蚕豆的根系分泌物,用HPLC分析了根系分泌物中低分子量有机酸的含量和种类.结果表明: 小麦-蚕豆间作显著提高了有机酸的分泌量,在小麦分蘖期(57 d)、孕穗期(120 d)和灌浆期(142 d),间作使小麦根系有机酸分泌量分别提高155%、35.6%和92.6%;在蚕豆分枝期(57 d)和籽粒膨大期(142 d),间作使蚕豆根系有机酸分泌量提高87.4%和38.7%.小麦-蚕豆间作改变了根系分泌物中有机酸的种类,与单作小麦相比,在分蘖期,间作小麦根系分泌物中增加了乳酸;在拔节期(98 d),间作小麦根系分泌物中增加了柠檬酸,但未检测到乙酸;在蚕豆分枝期,间作蚕豆根系分泌物中增加了乙酸,但未检测到乳酸;在蚕豆籽粒膨大期,间作蚕豆根系分泌物中增加了乳酸.小麦-蚕豆间作提高了小麦根系有机酸的分泌速率,在小麦孕穗期,间作小麦分泌柠檬酸、富马酸的速率是单作小麦的179和184倍;在小麦灌浆期,间作小麦分泌乳酸的速率是单作的2.53倍.总之,小麦-蚕豆间作增加了有机酸的分泌量,改变了根系分泌物中有机酸的种类,提高了小麦根系有机酸的分泌速率. 相似文献
6.
不同基因型春蚕豆对磷胁迫的适应性反应 总被引:16,自引:0,他引:16
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. 相似文献
7.
种间互作和施氮对蚕豆/玉米间作生态系统地上部和地下部生长的影响 总被引:14,自引:0,他引:14
为河西走廊绿洲灌区豆科/禾本科间作体系的养分管理提供科学依据,于2007年在武威绿洲农业试验站应用田间原位根系行分隔技术研究了蚕豆/玉米种间互作和施氮对玉米抽雄期的根系空间分布、根系形态和作物地上部生长的影响。研究结果表明:种间互作和施氮均增加了玉米和蚕豆在纵向和横向两个尺度上的根重密度、根长密度、根表面积、根系体积。根长密度和根表面积与两种作物产量和氮素吸收均呈正相关,而与蚕豆的根瘤重呈负相关;抽雄期的土壤含水量与玉米产量和养分吸收呈显著的负相关。玉米根系可以占据蚕豆地下部空间,但蚕豆的根却较少到间作玉米的地下部空间,也就是间作后增加了玉米根系水平尺度的生态位。蚕豆和玉米根系主要分布分别在0-40 cm浅土层和0-60 cm 土层,且间作玉米根系在60-120 cm比单作和分隔的多。因此,种间互作和施氮扩大了两作物根系纵向和横向的空间生态位,改变了作物根系形态,即扩展了两者水分和养分吸收的生态位,增加了作物吸收养分的有效空间,从而提高了间作生态系统的生产力。 相似文献
8.
长期施磷对玉米-小麦轮作系统作物产量和磷素吸收及土壤磷积累的影响 总被引:2,自引:0,他引:2
本研究利用位于河北省保定市的7年田间定位试验,探讨了4个磷水平(不施磷、70%优化施磷、优化施磷、130%优化施磷)对玉米-小麦轮作系统作物产量的影响,分析了作物磷素吸收和磷肥利用效率以及土壤磷盈亏的变化。结果表明: 长期(7年)施磷能够显著提高玉米和小麦产量及磷素吸收量,且玉米和小麦产量与磷素吸收量随着施磷量的增加均呈现先上升后下降的抛物线变化趋势。各施磷水平下玉米季磷肥利用率高于小麦季,小麦季磷肥累积利用率呈现下降趋势,下降速率表现为优化施磷>70%优化施磷>130%优化施磷;玉米季磷肥累积利用率均呈现上升趋势,上升速率表现为优化施磷>70%优化施磷>130%优化施磷。长期不施磷条件下土壤表观磷盈亏量和累积磷盈亏量都表现为亏缺状态,施磷条件下土壤磷表现为盈余,且施磷量越高,累积年限越长,土壤磷盈余量越高。河北潮土在秸秆还田条件下小麦施磷量在105~150 kg·hm-2,玉米施磷量在63~90 kg·hm-2时,既能保证作物高产,又能使磷肥利用率保持在较高水平,减少磷素在土壤中的累积,降低环境风险。 相似文献
9.
《应用生态学报》2017,(4)
玉米与马铃薯间作是重要的间作种植模式,具有较突出的资源利用和产量优势,但养分吸收和利用对作物产量优势的贡献及这种贡献对施氮量的响应机制尚不清楚.本研究采用玉米单作、马铃薯单作和玉米与马铃薯间作3种种植模式,分别设置N_0(0 kg·hm~(-2))、N_1(125 kg·hm~(-2))、N_2(250 kg·hm~(-2))和N_3(375 kg·hm~(-2))4个氮水平,通过2年田间小区试验,研究不同氮水平下间作产量优势的营养基础.结果表明:随着施氮量的增加,氮、磷、钾的单作加权平均吸收量逐渐增加,间作则先增加后减少.间作在N_1水平时具最高的养分吸收优势,分别较单作加权平均值增加氮吸收14.9%、磷吸收38.6%、钾吸收27.8%;间作在N0和N3时具有更高的养分利用效率,较单作可提高氮利用效率3.5%~14.3%、磷利用效率3.5%~18.5%、钾利用效率10.6%~31.6%.N_0和N_1时玉米与马铃薯间作具有显著产量优势,其营养基础在N0时主要是提高了作物养分利用效率,而N_1时则是促进养分吸收的结果.充分发挥间作促进养分吸收对玉米与马铃薯间作产量优势的贡献,需要合理控制氮肥的投入. 相似文献
10.
Wei-Ping Zhang Dario Fornara Guang-Cai Liu Josep Peñuelas Jordi Sardans Jian-Hao Sun Li-Zhen Zhang Long Li 《Journal of Plant Ecology》2022,15(2):223
种间相互作用影响植物氮和磷的吸收量而不是氮磷比
量化不同农艺措施下作物氮和磷吸收量(即从农田中移除的量)的化学计量特征对理解农田生态系统中的养分收支和优化氮、磷肥施用至关重要。目前还不清楚在不同的氮肥和覆膜措施下,单作和间作体系作物氮和磷吸收量以及氮磷化学计量特征随整个生长季的变化。本研究探讨了植物种间养分竞争如何对(1) 5种种植模式(小麦、玉米和大麦单作、小麦/玉米和大麦/玉米间作),(2)两种施氮水平(0和225 kg N ha−1)和(3)两种玉米覆膜处理(覆膜和不覆膜)下的作物氮、磷吸收量(以及氮磷比)时间动态的影响。研究结果表明,小麦和大麦的氮、磷竞争能力强于玉米,导致间作体系共生期的小麦和大麦氮、磷吸收量相比于单作增加,而玉米氮、磷吸收量相比于单作减少。3种作物植株氮磷比随作物生长而降低。作物氮磷比不受间作的影响,也不随施氮呈现一致的变化,覆膜降低了玉米的氮磷比。两种间作体系群落水平的氮磷比在成熟期与相应单作不同。由于(1)间作从土壤移除的氮和磷的比例不同于单作,以及(2)作物对氮和磷的吸收在施氮和覆膜下均是不耦合的,这些发现可能对间作系统的养分收支有启示意义。 相似文献
11.
《农业工程》2023,43(1):89-98
The changed phenolic acids (PAs) allelochemicals exuded by the roots induced by interspecific interactions is related to intercropping alleviates soil-borne disease. However, the presence of PAs in roots and root exudations and their rhizodeposition under intercropping are still unclear. Hydroponic and soil experiments of wheat, faba bean, and wheat intercropped with faba bean were conducted, and the major compositions and contents of PAs in roots, root exudations, and rhizospheric soil were determined. The results showed that ρ-hydroxybenzoic, vanillic, and syringic acids were the major components of PAs in roots, root exudations, and rhizospheric soil in a wheat and faba bean intercropping system. The compositions and percentages of PAs in roots of faba bean were altered when faba bean intercropped with wheat. The total exudation rate of PAs in root exudations was decreased by 30%–60% under the wheat and faba bean intercropping (W//F) system as compared to mono-cropped faba bean (MF). ρ-hydroxybenzoic acid was identified in the root exudation of both MF and mono-cropped wheat (MW), but not detected in the intercropping on 60 days after transplanting. Vanillic acid was only detected in the root exudation of MF on 30 days after transplanting. The rhizodepostion of vanillic and cumaric acid were decreased at both branching and pod setting stages in W//F as compared to MF. In conclusion, interspecific interaction changed the compositions and contents of PAs in faba bean roots and root exudations. W//F constrained vanillic acid exuded by roots and decreased vanillic and coumaric acid rhizodeposition by faba bean, which provides insight into root-soil interactions in the intercropping systems. 相似文献
12.
YiKai Zhang FanJun Chen Long Li YanHua Chen BingRan Liu YuLing Zhou LiXing Yuan FuSuo Zhang GuoHua Mi 《中国科学:生命科学英文版》2012,55(11):993-1001
Interspecific root/rhizosphere interactions affect phosphorus (P) uptake and the productivity of maize/faba bean and maize/wheat intercropping systems. The aim of these experiments was to determine whether manipulation of maize root growth could improve the productivity of the two intercropping systems. Two near isogenic maize hybrids (the larger-rooted T149 and smaller-rooted T222) were intercropped with faba bean and wheat, under conditions of high- and low-P availability. The larger-rooted T149 showed greater competitive ability than the smaller-rooted T222 in both maize/faba bean and maize/wheat intercropping systems. The higher competitive ability of T149 improved the productivity of the maize/faba bean intercropping system in P-sufficient conditions. In maize/wheat intercropping systems, root growth, shoot biomass, and P uptake of maize were inhibited by wheat, regardless of the P-supply. Compared with T222, the larger-rooted T149 suffered less in the intercropping systems. The total biomass of the maize/wheat intercropping system was higher for wheat/T149 than for wheat/T222 under low-P conditions. These data suggested that genetic improvement of maize root size could enhance maize growth and its ability to compete for P resources in maize/faba bean and maize/wheat intercropping systems. In addition, depending on the P availability, larger maize roots could increase the productivity of intercropping systems. 相似文献
13.
通过田间小区试验和水培试验,研究了3个品种小麦(云麦42、云麦47和绵阳29)与蚕豆间作对蚕豆地上部生物量、枯萎病发生、根际微生物代谢功能多样性和枯萎病病原菌尖孢镰刀菌数量的影响,分析了3个不同小麦品种低分子量根系分泌物组分(糖、氨基酸和有机酸)的差异.结果表明: 云麦42与蚕豆间作(YM42/B)和云麦47与蚕豆间作(YM47/B)使蚕豆地上部生物量分别增加16.6%和13.4%,使蚕豆枯萎病病情指数分别降低47.6%和23.3%,绵阳29与蚕豆间作(MY29/B)对蚕豆地上部生物量和枯萎病病情指数均无显著影响.与单作蚕豆相比,YM42/B和YM47/B处理均显著提高了蚕豆根际微生物的平均颜色变化率(AWCD)及对碳源的总利用强度和Biolog ECO板中各种碳源的利用,明显改变了蚕豆根际微生物群落结构,并显著降低了蚕豆根际的尖孢镰刀菌数量;MY29/B处理对AWCD值、碳源总利用强度和Biolog ECO板中各种碳源的利用及蚕豆根际尖孢镰刀菌数量均无显著影响,也未明显改变蚕豆根际的微生物群落结构.3个小麦品种根系分泌物中可溶性糖、游离氨基酸总量和有机酸总量均表现为MY29>YM47>YM42.MY29根系分泌物中丝氨酸、谷氨酸、甘氨酸、缬氨酸、蛋氨酸、苯丙氨酸、赖氨酸的含量均显著高于YM42和YM47;精氨酸为YM42、YM47所特有,而亮氨酸为MY29所特有.MY29和YM47根系分泌物中检出酒石酸、苹果酸、柠檬酸、琥珀酸、延胡索酸和顺乌头酸6种有机酸,而YM42根系分泌物中检出洒石酸、苹果酸、柠檬酸和延胡索酸4种有机酸,且MY29和YM47根系分泌物中苹果酸含量显著高于YM42.小麦与蚕豆间作提高了蚕豆根际微生物的活性和碳源利用强度,改变了根际微生物的群落结构,降低了蚕豆根际尖孢镰刀菌的数量,促进了蚕豆生长,抑制了蚕豆枯萎病的发生,但小麦与蚕豆间作控病效果受小麦品种的影响,表明间作系统中非寄主作物根系分泌物的差异是影响间作对土传病害控制的重要因素. 相似文献
14.
H. Li J. Shen F. Zhang M. Clairotte J. J. Drevon E. Le Cadre P. Hinsinger 《Plant and Soil》2008,312(1-2):139-150
The main objective of the present study was to investigate phosphorus (P) dynamics in the rhizosphere of durum wheat (Triticum turgidum durum L.) and common bean (Phaseolus vulgaris L.) grown in monocropping and intercropping systems with nitrate supply. Wheat and common bean were grown either alone or in association in a cropping device with a thin (1 mm) soil layer sandwiched between large root mats. Wheat intercropped with common bean exhibited a 33% increase in shoot biomass and a 22% increased root biomass, without significantly affecting common bean growth. After 12 days of culture, rhizosphere pH decreased by 1.66 and 1.13 units in monocropping system of common bean and intercropping system, respectively. Wheat increased intercropped common bean proton release by 36% compared with monocropped beans. Common bean and wheat exhibited different behaviors in rhizosphere P dynamics. Monocropped wheat decreased Resin-P, NaHCO3-P and NaOH-P in its rhizosphere by 24, 96 and 10%, respectively. However, NaHCO3-P and NaOH-P were increased by 61 and 10% in the rhizosphere of intercropping. Almost all values about P fraction in intercropping system were between those in monocropped common bean and monocropped wheat. Through taping different P fraction, different plants species possibly can alleviate competition for phosphorus in intercropping system. 相似文献
15.
小麦蚕豆间作对蚕豆根际微生物群落功能多样性的影响及其与蚕豆枯萎病发生的关系 总被引:5,自引:0,他引:5
通过田间小区试验,研究了小麦与蚕豆间作对蚕豆枯萎病发生和根际微生物代谢功能多样性的影响。结果表明,小麦与蚕豆间作使蚕豆枯萎病的发病率和病情指数分别比单作显著降低20%和30.4%。与单作处理相比,间作显著增加了蚕豆和小麦根际微生物对31种碳源的平均利用率(AWCD),其中间作蚕豆的AWCD值最高,比单作增加82.7%,单作蚕豆最低。间作蚕豆和间作小麦根际微生物的Shannon多样性指数与丰富度指数均显著高于单作,间作使蚕豆和小麦的丰富度指数分别增加29.2%和30.3%。根际微生物对六类碳源的利用强度百分比以糖类、羧酸类和氨基酸最高,分别为41.96%,19.80%和18.13%。主成分分析表明,小麦与蚕豆间作改变了根际微生物的群落组成;相关分析表明,糖类、羧酸类和氨基酸类碳源是区分单间作处理差异的主要碳源,其中氨基酸类碳源是最敏感的碳源。小麦与蚕豆间作增加了根际微生物活性,提高了Shannon多样性指数和丰富度指数,改变了微生物群落功能多样性,是抑制蚕豆枯萎病的有效措施。该研究为阐明根际微生物功能多样性变化在间作体系病害控制中的作用与机制奠定了理论基础。 相似文献
16.
Wheat (Triticum aestivum L.)/faba bean (Vicia faba L.) intercropping shows significant overyielding and high nitrogen (N)-use efficiency, but the dynamics of plant interactions have rarely been estimated. The objective of the present study was to investigate the temporal dynamics of competitive N acquisition between intercropped wheat and faba bean with the logistic model. Wheat and faba bean were grown together or alone with limited N supply in pots. Data of shoot and root biomass and N content measured from 14 samplings were fitted to logistic models to determine instantaneous rates of growth and N uptake. The superiority of instantaneous biomass production and N uptake shifted from faba bean to wheat with their growth. Moreover, the shift of superiority on N uptake occurred 7–12 days earlier than that of biomass production. Interspecific competition stimulated intercropped wheat to have a much earlier and stronger superiority on instantaneous N uptake compared with isolated wheat. The modeling methodology characterized the temporal dynamics of biomass production and N uptake of intercropped wheat and faba bean in different planting systems, which helps to understand the underlying process of plant interaction for intercropping plants. 相似文献
17.
Intercropping influences component and content change of flavonoids in root exudates and nodulation of Faba bean 总被引:2,自引:0,他引:2
Ying Chao Liu Xiao Min Qin Jing Xiu Xiao Li Tang Chi Zhang Wei Jin Jian Wei 《Journal of Plant Interactions》2017,12(1):187-192
Flavonoids produced by legume roots are signal molecules acting as nod gene inducers for the symbiotic rhizobium partner. Nevertheless, the changes of flavonoids in root exudates in intercropping system are still unknown. Based on pot experiment of faba bean and wheat intercropping, here we showed that faba bean and wheat intercropping increased the nodules number and dry weight, dry weight per nodule of faba bean compared with those found in monocropping, and the increase of faba bean nodulation was likely caused by the enhancement with flavonol, isoflavone, chalcone and hesperetin in its root exudates. It also promoted exudation of five types of flavonoids by wheat compared with monocropping. Our findings suggest that the flavonoids in root exudates have a positive effect on the nodulation and nitrogen fixation of faba bean in faba bean and wheat intercropping. 相似文献