箭筈豌豆、玉米产量对间作和施氮水平的响应

研究不同施氮水平下箭筈豌豆、玉米产量对单作和间作的响应,对于优化栽培措施、提高作物产量具有重要意义。本试验于2017年在甘肃河西绿洲灌溉区进行,重点研究是不同施氮水平下箭筈豌豆、玉米在单作及间作模式中干物质累积、产量构成、产量表现。结果表明,间作箭筈豌豆干物质累积量与单作相比在不施氮(N0)、减量施氮(N1)和常规施氮(N2)处理下分别提高44.0%、36.7%和37.2%;施氮水平间,间作模式下N1比N2和N0提高9.1%和25.5%,单作模式下提高9.4%和32.1%。间作玉米干物质累积量与单作相比在N0、N1和N2处理下分别提高23.3%、22.5%和23.0%;施氮水平间,间作模式下N1比N2和N0提高9.3%和19.8%,单作模式下提高9.9%和20.7%。间作模式下箭筈豌豆豆荚数和玉米穗数较相应单作分别增加7.6%和14.5%,两者的产量较单作分别提高34.9%和27.0%。由通径分析可知,箭筈豌豆产量决定次序是豆荚数>粒重>单荚粒数,玉米产量决定次序是穗数>粒重>穗粒数。间作结合施氮量240 kg/hm²能获得较高干物质积累量和产量,是河西灌溉区玉米间作箭筈豌豆适宜的施氮水平。     

大叶芥菜作为植物熏蒸材料与主栽作物番茄间作模式探索

以大叶芥菜为主要的植物熏蒸材料,通过改变其与主栽作物番茄间作的不同种植模式,分析大叶芥菜产量、大叶芥菜硫代葡萄糖苷含量、番茄根结指数、番茄产量等指标,探索生物熏蒸效果佳、作物产量高、可以大面积推广的间作模式。结果表明:间作模式1(栽培大叶芥菜前将番茄吊蔓的2架钢丝距离调整为50~60 cm,第1茬番茄拉秧后将棚内温度调高2~5 ℃)效果最好,大叶芥菜的产量、硫代葡萄糖苷含量最高,根结线虫抑制效果最好,同时每667 m^2番茄产量最高,达12 216.5 kg,可大面积推广。     

槟榔间作条件下不同修剪方式对可可生长和产量的影响

以槟榔间作可可条件下的可可为研究对象,比较不同修剪方式对其生长、光合作用及产量的影响。结果表明:中度修剪提高可可株高、干周和主枝粗度,重度修剪和仅控冠幅降低可可干周和主枝粗度。中等修剪可可叶片Pn显著高于轻度修剪和仅控冠幅,可能由于修剪提高了新梢叶片叶肉细胞光合作用能力。中度修剪可可徒长枝重量分别比轻度修剪、重度修剪和仅控冠幅显著降低了69.27%、54.69%和57.03%,大大降低了养分消耗,提高产量的同时节省了修剪工作量。综上所述,在槟榔间作可可条件下,采用中度修剪有利于提高光合作用效率,形成健康平衡树形,降低徒长枝养分消耗,提高产量,为槟榔间作可可节本增效技术研究与优化提供依据。     

玉米根系分泌物对连作花生土壤酚酸类物质化感作用的影响

为探究玉米花生间作系统中玉米根系分泌物对连作花生土壤的酚酸类物质化感作用的影响机制，利用CH2Cl2提取了玉米抽雄期根系分泌物，通过室内模拟培养法，研究了玉米根系分泌物对含有不同浓度肉桂酸、邻苯二甲酸及对羟基苯甲酸3种酚酸类物质土壤的微生态环境的影响。结果表明，酚酸类物质均显著降低了土壤微生物量碳和氮的含量，抑制了土壤微生物活性，土壤酶（脲酶、酸性磷酸酶和蔗糖酶）活性和养分含量（碱解氮、有效磷和有效钾）亦显著降低，且浓度越高化感抑制作用（RI＜0）越强（P＜0.05）。玉米根系分泌物可降低酚酸类物质对土壤微生物活性、微生物量、酶活性及养分含量的化感指数，以低浓度处理的降幅较大，且在处理第5 d和10 d显著增加了3种酚酸类物质处理的土壤呼吸强度、酶活性、微生物量及养分含量（P＜0.05）；不同酚酸类物质中，以邻苯二甲酸所受影响最大。整个培养时期，玉米根系分泌物对酚酸类物质化感作用的影响以处理第5 d最强，随后呈减弱趋势。3次取样，土壤微生物量、微生物活性、酶活性和养分含量的化感指数分别降低10.03%~64.13%、9.72%~57.51%、13.16%~78.85%和5.88%~59.71%。玉米根系分泌物可通过提高土壤微生物量、微生物活性及养分含量，来降低肉桂酸、邻苯二甲酸和对羟基苯甲酸对土壤微生态环境的化感作用。结果为玉米花生间作缓解花生连作障碍技术提供一定的理论依据。     

玉米-大豆间作和减量施氮对玉米生长、产量及土壤硝态氮含量的影响

通过大田试验，研究玉米单作（MM）、玉米-大豆间作1∶2（IMS1，玉米1行，大豆2行）、2∶2（IMS2，玉米2行，大豆2行）3种种植方式和3种施肥水平不施氮（N0）、减量施氮200 kg/hm（N1）、常量施氮300 kg/hm（N2）对玉米生长、产量以及土壤硝态氮含量的影响。结果表明，IMS1下，N2玉米叶面积较N0显著提高6.30%。间作和N1处理对玉米产量无显著影响，但显著提高了玉米和大豆总产量。N1较N2的氮肥农学效率显著提高。土壤硝态氮随玉米不同生育期的变化而变化，在成熟期达到最低值。与N2相比，N1土壤硝态氮无显著变化，未对土壤养分产生负面影响并能满足作物对氮素的需求，保持高产。总体来看，玉米大豆间作模式下减量施氮有利于节肥和提高间作体系总产量。     

玉米-大豆带状间作下除草剂的筛选

采用单因素随机区组设计,研究了3种药剂(A1:60%乙·嗪·滴丁酯、A2:60%乙·嗪·滴丁酯+48%灭草松、A3:48%灭草松)与清水对照组(A4)在玉米-大豆间作条件下,玉米、大豆苗期农艺性状、株防效及药害等级和成熟期作物产量,考察了玉米-大豆带状复合种植模式下除草剂除草效果及安全性。结果表明:3种除草剂对反枝苋、马唐防效好,对刺儿菜防效较差。药后15 d,A1与A2对杂草的防除效果最好,均在75%以上,其中A2对马唐的株防效达到了100%。药后30 d,各处理下的鲜重防效均在80%以上,A1对反枝苋的株防除效果最好为88.89%。玉米、大豆产量在A2处理下最高,分别较清水对照组高33.7%、39.4%。3种除草剂对玉米、大豆幼苗都有一定的药害症状,但药害等级均小于1,从株防效和对作物产量的影响分析,A2更适用于玉米-大豆带状复合种植模式。     

Early interspecific dynamics,dry matter production and nitrogen use in Kernza (Thinopyrum intermedium) – alfalfa (Medicago sativa L.) mixed intercropping

ABSTRACT

The global interest in growing perennial grain crops such as intermediate wheatgrass (Thinopyrum intermedium) (Kernza) for production of food and feed is increasing. Intercropping Kernza with legumes may be a sustainable way of supplying nitrogen to soil and associated intercrop. We determined the competitive interactions between intercropped Kernza (K) and alfalfa (Medicago sativa L.) (A) under three inorganic nitrogen (N) rates N0, N1, N2 (0, 200, 400 kg ha^?1) and five species relative frequencies (SRF) (100%K:0%A, 75%K:25%A, 50%K:50%A, 25%K:75%A and 0% K:100%A) in mixed intercrops (MI) in a greenhouse pot experiment. After 11 weeks of growth. Kernza dry matter yield (DM) and N accumulated (NACC) were low, but alfalfa DM and NACC high at 0 kg N ha^?1. 200 and 400 kg N ha^?1 fertiliser application increased the competitive ability (CA) of Kernza and reduced the CA of alfalfa. SRF had large impacts on alfalfa DM, NACC and NFIX only at 0 kg N ha^?1 fertiliser, and insignificant impacts on Kernza at all N fertiliser levels, indicating that adjustment of SRF may not be an effective way to modulate the interspecific competition of Kernza. Further research on the other factors that influence the interspecific competition are warranted.     

辽西北沙地苹果-花生间作系统土壤养分空间分布特征及间作效应

[目的] 研究辽西北沙地农林复合系统土壤养分的空间分布及其效应，从土壤养分角度探讨果农间作系统中果树和农作物对土壤养分的相互作用关系，为该区农林复合系统的可持续经营提供科学合理的依据。[方法] 以苹果与花生间作、花生单作、苹果单作为研究对象，对0-60 cm土层深度，0-300 cm水平距离范围内土壤养分含量进行测定和分析。[结果] 沙地间作系统中土壤有机质、速效钾极缺乏，全氮、碱解氮很缺乏，全磷缺乏，有效磷含量中等；间作系统在水平方向上，苹果树和花生植株对总养分有机质、氮、磷的竞争激烈位点位于果树带区，对有效养分氮、磷、钾的竞争激烈位点位于近果树作物区；在垂直方向上，各养分总体表现出了表聚性，间作系统对有机质、有效磷的竞争主要位于深土层，对全磷、速效钾的竞争主要位于表土层，对全氮、碱解氮表现为合作效应，表土层效应更高；与苹果单作、花生单作相比较，间作系统速效钾和有效磷含量呈现负效应。[结论] 沙地苹果-花生间作系统土壤养分贫瘠，应在果树带区施用有机肥、磷肥，作物区施入钾肥，以减轻养分竞争，提高养分效应。     

Relay-intercropping soybean with maize maintains soil fertility and increases nitrogen recovery efficiency by reducing nitrogen input

Optimized nitrogen(N)management can increase N-use efficiency in intercropping systems.Legume-nonlegume intercropping systems can reduce N input by exploiting biological N fixation by legumes.Measurement of N utilization can help in dissecting the mechanisms underlying N uptake and utilization in legume-nonlegume intercropping systems.An experiment was performed with three planting patterns:monoculture maize(MM),monoculture soybean(SS),and maize-soybean relay intercropping(IMS),and three N application levels:zero N(NN),reduced N(RN),and conventional N(CN)to investigate crop N uptake and utilization characteristics.N recovery efficiency and 15N recovery rate of crops were higher under RN than under CN,and those under RN were higher under intercropping than under the corresponding monocultures.Compared with MM,IMS showed a lower soil N-dependent rate(SNDR)in 2012.However,the SNDR of MM rapidly declined from 86.8%in 2012 to 49.4%in 2014,whereas that of IMS declined slowly from 75.4%in 2012 to 69.4%in 2014.The interspecific N competition rate(NCRms)was higher under RN than under CN,and increased yearly.Soybean nodule dry weight and nitrogenase activities were respectively 34.2%and 12.5%higher under intercropping than in monoculture at the beginning seed stage.The amount(Ndfa)and ratio(%Ndfa)of soybean N2 fixation were significantly greater under IS than under SS.In conclusion,N fertilizer was more efficiently used under RN than under CN;in particular,the relay intercropping system promoted N fertilizer utilization in comparison with the corresponding monocultures.An intercropping system helps to maintain soil fertility because interspecific N competition promotes biological N fixation by soybean by reducing N input.Thus,a maize-soybean relay intercropping system with reduced N application is sustainable and environmentally friendly.