Several Cotton Rotation and Intercropping Systems in Cotton Planting Area of Eastern Henan Province

In recent years,the area dedicated to cotton cultivation in eastern Henan Province has experienced a continuous decline.Developing efficient multi-cropping systems for cotton and increasing the multiple cropping index represent effective strategies to stabilize the cotton planting area and enhance the income of cotton farmers.This paper presents an overview of intercropping systems and the benefits associated with cotton rotation and intercropping practices.Specifically,it discusses the"early maturing cotton-wheat"rotation system,the"cotton-watermelon"intercropping system,the"cotton-Dutch bean"intercropping system,and the"early maturing cotton-peanut-garlic"intercropping system.

Timing and splitting of nitrogen fertilizer supply to increase crop yield and efficiency of nitrogen utilization in a wheat–peanut relay intercropping system in China

Agronomically optimizing the timing and rates of nitrogen(N) fertilizer application can increase crop yield and decrease N loss to the environment. Wheat(Triticum aestivum L.)–peanut(Arachis hypogaea L.) relay intercropping systems are a mainstay of economic and food security in China. We performed a field experiment to investigate the effects of N fertilizer on N recovery efficiency, crop yield, and N loss rate in wheat–peanut relay intercropping systems in the Huang-Huai-Hai Plain, China during 2015–2017. The N was applied on the day before sowing, the jointing stage(G30) or the booting stage(G40) of winter wheat, and the anthesis stage(R1) of peanut in the following percentage splits: 50-50-0-0(N1), 35-35-0-30(N2), and 35-0-35-30(N3), using 300 kg N ha-1, with 0 kg N ha-1(N0) as control. ^(15)N-labeled(20.14 atom %) urea was used to trace the fate of N in microplots. The yields of wheat and peanut increased by 12.4% and 15.4% under the N2 and N3 treatments, relative to those under the N1 treatment. The ^(15)N recovery efficiencies( ^(15)NRE) were 64.9% and 58.1% for treatments N2 and N3, significantly greater than that for the N1 treatment(45.3%). The potential N loss rates for the treatments N2 and N3 were23.7% and 7.0%, significantly lower than that for treatment N1(30.1%). Withholding N supply until the booting stage(N3) did not reduce the wheat grain yield; however, it increased the N content derived from ^(15)N-labeled urea in peanuts, promoted the distribution of ^(15)N to pods, and ultimately increased pod yields in comparison with those obtained by topdressing N at jointing stage(N2). In comparison with N2, the N uptake and N recovery efficiency(NRE) of N3 was increased by 12.0% and 24.1%,respectively, while the apparent N loss decreased by 16.7%. In conclusion, applying N fertilizer with three splits and delaying topdressing fertilization until G40 of winter wheat increased total grain yields and NRE and reduced N loss. This practice could be an environment-friendly N management strategy for wheat–peanut relay intercropping systems in China.

Effect of Limited Single Irrigation on Yield of Winter Wheat and Spring Maize Relay Intercropping

A field experiment was conducted during the 2002/2003 cropping season of winter wheat （Triticum aestivum） and spring maize （Zea mays） to evaluate the effect of limited single drip irrigation on the yield and water use of both crops under relay intercropping in a semi-arid area of northwestern China. A controlled 35 mm single irrigation, either early or late, was applied to each crop at a certain growth stage. Soil water, leaf area, final grain yield and yield components such as the thousand-grain weight, length of spike, fertile spikelet number, number of grains per spike, and grain weight per spike were measured, and water use efficiency and leaf area index were calculated for the irrigated and non-irrigated relay intercropping treatments and sole cropping controls. The results showed that yield, yield components, water use efficiency, and leaf area index in the relay intercropping treatments were affected by limited single drip irrigation during various growth stages of wheat and maize. The total yields in the relay intercropping treatment irrigated during the heading stage of wheat and the heading and anthesis stage of maize were the highest among all the treatments, followed by that irrigated during the anthesis stage of wheat and silking stage of maize; so was the water use efficiency. Significant differences occurred in most yield components between the irrigated and non-irrigated relay-intercropping treatments. The dynamics of the leaf area index in the relay-intercropped or solely cropped wheat and maize showed a type of single-peak pattern, whereas that of the relay intercropping treatments showed a type of double-peak pattern. Appropriately, limited single irrigation and controlled soil water content level could result in higher total yield, water use efficiency, and leaf area index, and improved yield components in relay intercropping. This practice saved the amount of water used for irrigation and also increased the yield. Therefore, heading stage of wheat and heading and anthesis stage of maize were suggested to be the optimum limited single irrigation time for relay-intercropped wheat and maize in the semi-arid area.

The damage risk evaluation of Aphis gossypii on wheat by host shift and fitness comparison in wheat and cotton

Aphids are considered as one of the key pests for wheat production worldwide. Major aphid species that infest wheat in China include Sitobion avenae, Rhopalosiphum padi, Schizaphis graminum and Metopolophium dirhodum. However, during our wheat field survey in Wenshang County of Shangdong＇Province, China, we observed that Aphis gossypii can feed on wheat. The damage risk of A. gossypii on wheat was assessed using host shift method. A population of A. gossypii collected from a wheat field in 2015 and another population reared on cotton under laboratory conditions for a decade without exposure to insecticides were used in the study. The results of host shift demonstrated that the A. gossypfi colony from wheat has not yet developed wheat specialization. Moreover, the assessment of A. gossypii fitness on wheat and cotton showed that fecundity and net reproductive rate of A. gossypii population fed on wheat was significantly higher comparing to the population fed on cotton, whether the initial host of A. gossypii population was wheat or cotton. This study raises a warning that the cotton aphid has potential to establish well on wheat and it may cause significant effects under specific circumstances. Therefore, future studies are required to evaluate the effects of A. gossypfi on wheat production.

小麦边际效应与种植方式规范化的研究

采用田间小区、池栽和大田生产试验三种方法,通过对不同带型小麦边际效应的研究,理论模拟了间套条件下小麦产量的变化规律,提出了间套优势的概念和对小麦种植方式进行优化评价的思路。即间套优势(RIS)=相对产量/相对占地面积,它是边行优势大小和边行优势在总产量中所占比例的综合反映,利用RIS是否大于1可作为间套种植是否合理的依据。通过理论分析和实践验证,"20+40cm"(畦麦行距25cm,小麦小行距即沟宽20cm,大行距即垄宽50cm)小麦种植模式具有间套通用性强、适应性广、夏秋双高产的特点,对于实现小麦间套种植方式的规范化和机械化,可能具有重要意义。

氮肥和种植密度对带状种植小麦抗倒能力的影响及边际效应

西南地区小麦以套作为主,因有效穗不足而使产量受到严重制约。本研究旨在提出该地区套作小麦高产栽培的适宜密度和氮肥施用量,提高小麦生育后期的抗倒伏能力,确保有效穗和最终产量。2009—2010和2010—2011连续两年度,选用主推品种川麦42,在纯氮120kghm-2和180kghm-22个施氮水平下,按60、120、180、240和300万株hm-2密度进行带状种植,对小麦群体发展、茎秆形态特征和倒伏机械特性进行了行间差异分析。结果表明,边行、次边行和中间行均随种植密度的增加茎蘖数和有效穗增多,但单株干物重及其在穗中的分配比例下降,茎秆质量降低。群体发展和个体质量在拔节后表现出显著的边行优势,成穗率、有效穗、单茎干物重、节间粗度、茎壁厚度、节间充实度和机械强度均以边行最优;同时密度对边行优势有显著影响,在180万株hm-2密度下,边行的有效穗基本达到饱和;密度继续增加时次边行和中间行的有效穗显著增加,并伴随株高和重心高度增加、单茎干物重降低、干物质分配在穗中的比例减小、节间充实度和茎秆机械强度急剧下降、倒伏时期提前、倒伏指数和倒伏程度增加。增加施氮量有提高中间行茎秆机械强度和降低倒伏指数、增强茎秆抗倒伏能力的趋势,但总体表现不显著。因此认为,120～180万株hm-2种植密度有利于套作小麦个体和群体质量的协调,是南方丘陵旱地带状种植小麦抗倒高产的适宜种植密度。

麦棉套种对棉行太阳辐射和温度的影响

对３－２式麦棉套种预留棉行的小气候效应进行研究在明，小麦对预留棉行有根强的遮荫作用；致使齐穗期预留棉行中央的光合有效辐射较冠层减少３０％，太阳总辐射削减１９％；小麦黄熟前，预留棉行内风速较一熟棉田小，午后气温也较一熟棉田低；共生前期麦套露地棉田地温较一熟棉田低，小麦黄熟后较一熟棉田高，而麦套地膜棉田的地温一直较一熟棉田高。降低小麦株高，留足预留棉行，麦套棉地膜覆盖。加强小麦生育后期的水分管理，都有利于减轻麦棉套种的不利和小气候的影响。

蒜棉、麦棉套作对土壤微生物数量及相关酶活性的影响

在大田生产条件下,以棉花单作为对照,设置蒜棉套作、麦棉套作处理,研究蒜棉套作与麦棉套作对棉田土壤微生物数量及酶活性的影响,以揭示蒜棉、麦棉套作棉田棉花高产原因。结果显示:与单作棉田相比,蒜棉套作与麦棉套作均有利于棉田土壤中细菌、放线菌的增殖,并抑制真菌的增殖,其中蒜棉套作效果更显著;蒜棉套作0—20cm土层脲酶活性和蔗糖酶活性在整个生育期显著高于棉田单作,碱性磷酸酶活性除花铃期外也均显著高于单作,过氧化氢酶在苗期与吐絮期显著高于单作;麦棉套作0—20 cm土层脲酶活性和蔗糖酶活性亦在苗期、花铃期显著高于单作,碱性磷酸酶活性在蕾期显著高于单作,过氧化氢酶活性在苗期与吐絮期显著高于单作。结论:蒜棉套作与麦棉套作能提高棉田土壤微生物中细菌和放线菌的数量,有效抑制棉田连作障碍的发生。蒜棉套作与麦棉套作能提高棉田土壤相关酶活性,对棉田健康土壤的培育有积极意义。

核(桃)农间作系统小气候水平分布特征研究

对不同核桃间作类型:核(桃)麦间作(5 m×6 m,6 m×8 m)、核(桃)棉间作(6 m×8 m)系统中各项小气候因子进行了观测,结果表明,不同类型核(桃)农间作系统的光照强度、温度、相对湿度和风速发生了不同程度的变化,同一类型中行间各点小气候水平分布也有区别,其中光照强度变化较大;不同间作类型相比,受光量排列顺序为核(桃)麦间5 m×6 m<6 m×8 m<CK-1(小麦地),核(桃)棉间作6 m×8 m<CK-2(棉花田);同一间作类型内各点受光量排列顺序为中测点<冠下测点<冠外测点<对照;3种间作类型下核桃的平均遮荫度分别为32.3%,22.0%,24.8%;其他小气候因子在不同间作类型间和同一间作类型各点间没有光因子的变化大。

不同类型棉田节肢动物群落结构研究

运用群落生态学原理和方法，研究了北方平作春棉、麦套春棉和麦套夏棉节肢动物的群落结构。结果表明，平作春棉节肢动物群落组成有５５科、６８属、７３种，麦套春棉有７４科、１０２属、１０８种，麦套夏棉有５７科、８０属、８５种。平作春棉和麦套春棉间节肢动物群落的相似系数（０．６８３０）＞麦套春棉和麦套夏棉（０．５５９８）＞平作春棉和麦套夏棉（０．４１２５）。麦套春棉的多样性指数和均匀度值分别为１．３４８６和０．２８８４＞麦套夏棉（分别为１．２８３９和０．２８６８）＞平作春棉（分别为０．６０６１和０．１４０４）；优势度值则为平作春棉（０．７７６１）＞麦套夏棉（０．５６７６）＞麦套春棉（０．４９７１）。麦套棉（特别是麦套春棉）节肢动物群落的结构较平作棉稳定，对环境的变化或来自群落内部种群波动的缓冲作用较强，是不利于某些害虫发生，而有利于天敌繁衍的良好生态系统。

麦棉套作棉花根际非根际土壤微生物和土壤养分

在麦棉套作栽培模式下,设置不隔根、纱网隔根和塑膜隔根3种麦棉套种方式,研究麦棉套作对棉花根际和非根际土壤微生物数量、活性和土壤养分(全氮、有效磷和速效钾)含量的影响,结果表明:麦棉套作有利于棉花根际与非根际土壤细菌的增殖,盛蕾期不隔根处理棉花根际土壤与非根际土壤细菌数量分别是塑膜隔根处理的2·57和2·81倍。但麦棉套作不利于土壤真菌和放线菌的增殖。细菌在土壤微生物区系中占99·9%。所以,麦棉套作显著提高了棉花土壤微生物数量,同时也增强了微生物活性。麦棉共处期纱网隔根处理棉花土壤全氮、有效磷、速效钾含量显著高于不隔根处理和塑膜隔根处理,证明麦棉套作系统中小麦根系分泌物与脱落物的存在对棉花土壤养分含量的增加有明显的促进作用,即存在种间营养补偿效应。而共处期不隔根处理套作棉土壤养分含量总体上显著低于隔根处理的现象则反映出小麦根系对棉花土壤养分的竞争作用大于其对棉花土壤养分的促进作用。小麦收获后,小麦根系对棉花养分的竞争作用解除,不隔根处理棉花土壤养分含量显著高于塑膜隔根和纱网隔根处理。

麦棉套作复合根系群体对棉花根系生长的影响

【目的】探索麦棉套作两熟中棉花根系对逆境适应的生理机制,为采取合理调控措施、解决麦棉两熟双高产栽培中棉花弱苗晚发问题提供依据。【方法】在麦棉套作模式下,采用池栽和盆栽相结合的试验方法,设置麦棉自然根系套作(根系和肥水均可相互通过)、纱网隔根套作(肥水可相互通过,根系不能相互通过)和塑膜隔根套作(根系和肥水均不能相互通过)3种麦棉复合根系群体,研究套作小麦对棉花根系活力、内源保护酶活性及膜脂过氧化作用的影响。【结果】在麦棉共处期,麦棉自然套作复合根系中小麦根系对肥水的激烈竞争,导致棉花根系干物质累积量和根冠比均显著低于隔根处理。而小麦根系强烈的生理活动,使套作棉花根系处理相对隔根处理处于一种逆境胁迫状态,其根系活力增强,超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、过氧化物酶(POD)等内源保护酶活性明显提高。同时,根系细胞膜脂过氧化程度也相应增大。到小麦收获后,种间竞争解除,麦棉自然根系处理棉花根系生长的环境条件得以改善,根系膜脂过氧化程度降低,但由于前期影响还未能完成消除,其根重仍明显低于隔根处理。【结论】套作棉花通过提高根系内源保护酶活性来适应小麦对其造成的营养逆境胁迫。

枣农间作系统小气候水平分布特征研究

【目的】通过在环塔里木盆地干旱区,对不同枣农间作类型:枣麦间作(3 m×4 m,2 m×6 m)、枣棉间作(3 m×4 m,2 m×6 m)系统小气候方面的研究,以期完善枣农间作理论,为新疆枣农间作模式的优化及间作物的选择种植提供理论依据。【方法】使用Vantage Pro2自动气象站和KS4000手持气象站观测光照强度、空气温湿度、风速和风向等气象因子,同时使用WQG-15地面温度计观测地温。【结果】不同类型枣农间作系统的光照强度、温度、相对湿度和风速发生了不同程度的变化,同一类型中行间各点小气候水平分布也有区别,其中光照强度变化较大;不同间作类型相比,受光量排列顺序为枣麦间作3×4(m)<2×6(m)<CK-1(小麦地),枣棉间作3×4(m)<2×6(m)<CK-2(棉花田);同一间作类型内各点受光量排列顺序为行东、行西<行中<对照;4种间作类型下枣树的平均遮阴度分别为10.7%、6.7%、12.8%和9.5%;其它小气候因子在不同间作类型间各点间变化也较大。【结论】枣麦间作较枣棉间作共生期短,树冠遮阴时间就短,受光情况较好一些,但总体影响不大。其他小气候因子变化趋势基本一致。

耕作方式、播深及覆土对机播套作小麦群体质量和产量的影响

为探讨发展丘区套作小麦机播技术配套的农艺措施,该试验分别在翻耕和免耕条件下,设置了播深(2、5、8 cm)、覆土(不覆土为对照)对小麦群体质量和产量的影响。结果表明,3种农艺措施对群体质量和产量影响大小的先后顺序是播深>耕作方式>覆土。其中播深对群体质量和产量指标的影响均达显著水平,最适播深为5 cm,8 cm次之;播深2 cm时分蘖少群体小,主要依靠主茎成穗,且干物质积累量、叶面积指数及产量显著减小。免耕优于翻耕,免耕能扩大群体,同时显著提高花后干物质积累量、有效穗数、茎蘖成穗率及产量。覆土利于群体苗期分蘖和花后干物质积累,达到显著增产效果。另外,3种农艺措施的交互作用显著。综合来看,丘区套作小麦机播技术配套的农艺措施宜选用"免耕+播深5 cm+覆土",利于优化群体质量提高整体产量水平。

麦棉套种对预留棉行光合有效辐射的影响

对东西行向、预留棉行为１００ｃｍ的三二式麦棉套种方式研究表明，在小麦抽穗后的麦棉共生期间，预留棉行上的平均光合有效辐射仅为一熟棉田的５０％～８０％，株高低和叶片枯黄时光照削弱较小；在麦棉间距相同的情况下，北行棉花接受的ＰＰＦＤ较多，而正午前后南行棉花易受荫蔽，南行棉花适当北移，保持麦棉间距在３０ｃｍ以上，降低小麦群体株高，防止小麦旺长，起垄种棉，都有利于棉花生长发育。

麦棉套作Bt棉花根系分泌物对土壤速效养分及微生物的影响

在砂培条件下,设置改良3∶1式麦棉套作试验,采用1/2 Hoagland-Aron营养液培养棉苗,溶液法收集根系分泌物。以中性去离子水为对照,将收集到的棉花根系分泌物与不同粒径的土壤混合培养15 d后,测定棉花根系分泌物对不同粒径土壤速效养分(速效氮、速效钾、速效磷)含量和土壤酶活性的影响。同时在大田条件下,研究改良3∶1式麦棉套作系统中套种行土壤养分、微生物数量和土壤酶活性的变化。结果表明:棉花根系分泌物促进了土壤中磷、钾向有效态的转化,土壤速效氮(硝态氮、铵态氮)含量下降,速效磷、钾的含量分别比对照提高了19.2%和34.0%,土壤酶活性比对照提高了12.2%。细菌和真菌的数量比对照高49.8%和52.9%,土壤蔗糖酶活性升高。

麦棉套种共生期不同土壤水分对冬小麦生理特性及产量与品质的影响

冬小麦、棉花套种共生期包括小麦灌浆期和棉花的苗期,这一时期对冬小麦生长及产量和品质形成具有重要意义。该文在3-1式和4-2式两种麦棉套种配置方式条件下,研究了麦棉共生期土壤水分条件对小麦生理特性以及产量和品质的影响。试验结果表明,土壤水分显著影响了小麦的光合蒸腾日变化动态。共生期较高的土壤水分不利于干物质向籽粒的运输和分配,其产量以70%土壤含水率处理最高。较低的土壤水分有利于小麦籽粒蛋白质和湿面筋含量以及沉降值的提高。3-1式小麦更容易受到土壤水分亏缺的抑制。

氮肥运筹对四川丘陵区机播套作小麦群体质量及产量的影响

以四川大面积推广应用的中筋小麦品种川麦42为材料,采用两因素裂区试验设计,研究了不同施氮量和施氮方式对带式机播套作小麦(播幅为净作的50%)群体质量和产量的影响。结果表明,套作小麦拔节后的叶面积指数(LAI)、干物质积累量均随施氮量的增加而提高,粒叶比则在中等偏高施氮量(N 180 kg/hm2)时最大;底肥∶拔节肥=7∶3的施氮方式有效地提高了花后LAI、干物质日积累速率及粒叶比。对产量影响方面,有效穗和穗粒数随施氮量的增加而提高,成穗率和千粒重则在N 180 kg/hm2时最高,底肥∶拔节肥=7∶3的施氮方式提高了成穗率。相关分析表明,孕穗后的LAI、孕穗期的干物质积累以及拔节至孕穗期的干物质日积累速率与产量呈显著或极显著正相关。本试验条件下,在施氮量为N 180 kg/hm2、施氮方式为底肥∶拔节肥=7∶3时,套作小麦产量构成因素协调好,产量最高,达4800.4 kg/hm2,与生产上大面积净作小麦产量相当。其群体质量指标为:基本苗184.5万株/hm2,成穗数225.3万穂/hm2,成穗率72.8%,孕穗期LAI 4.68,灌浆期LAI 2.11,花后干物质积累量3201.2kg/hm2,结实粒数9652.5万粒/hm2,粒叶比11.501 mg/cm2。

小麦收获期对麦套棉田捕食性天敌和棉花苗蚜的影响

2004-2005年在冀南棉区研究了小麦收获期对麦套棉田中捕食性天敌和棉花苗蚜的影响。小麦收获期共设3个水平,分别是6月5日、6月10日和6月15日收获小麦。结果表明:2004年3个时期收获小麦对棉田的益害比(天敌和棉蚜的比值)无显著影响(t>0.05);2005年6月5日收获小麦,显著增加了棉田的益害比(t<0.05),6月10日和6月15日收获小麦对棉田的益害比无显著影响(t>0.05)。说明在麦套棉田中,麦田天敌到棉田的有效转移受麦蚜-天敌-棉蚜三者发生高峰期的影响,不同年份天敌的转移情况有所不同。麦蚜发生高峰期早则小麦天敌向棉田转移早,并能有效控制苗期蚜虫的危害,在麦熟期收获小麦,对棉田天敌的数量影响不大;反之,若麦蚜发生高峰期晚,麦田天敌发生期也会相应延后,在麦熟期收获小麦则会引起棉田天敌的增加。因此,棉田天敌数量变化受小麦收获期的影响,但与麦蚜和麦田天敌的发生动态有直接关系。

麦套夏播转Bt基因棉田主要害虫及其天敌的发生规律

１９９７年在田间系统研究了转Ｂｔ基因棉品种中棉所３０（Ｒ９３－６）在麦套种植方式下，对棉田主要害虫及其天敌种群的影响。结果表明，转基因棉对棉铃虫（Ｈｅｌｉｏｔｈｉｓａｒｍｉｇｅｒａ）和棉造桥虫（Ａｎｏｍｉｓｆｌａｖａ）有良好的抗性，发生高峰期百株幼虫数量均显著低于对照品种中棉所１６（早熟品种），但转基因棉田仍需防治三、四代棉铃虫；和常规棉相比，转基因棉自然控制田和转基因棉综合防治田的棉蚜（Ａｐｈｉｓｇｏｓｙｐｉ）分别增加３３．１％和减少２５．１％、红蜘蛛（Ｔｅｔｒａｎｙｃｈｕｓｃｉｎｎａｂａｒｉｎｕｓ）分别增加１３８．９％和减少１８．５％、棉蓟马（Ｔｈｒｉｐｓｔａｂａｃｉ）分别增加３４６．０％和３１５．３％、白粉虱（Ｔｒｉａｌｅｕｒｏｄｅｓｖａｐｏｒａｒｉｏｒｕｍ）分别增加６３．８％和２９．０％、棉盲蝽（Ｌｙｇｕｓｌｕｃｏｒｕｍ）分别增加５７．１％和减少１８．９％、棉叶蝉（Ｅｍｐｏａｓｃａｂｉｇｕｔｕｌａ）分别增１１．５％和１４．２％、龟纹瓢虫（Ｐｒｏｐｙｌａｅａｊａｐｏｎｉｃａ）分别增加１１．８％和４５．５％、草间小黑蛛（Ｅｒｉｇｏｎｉｄｉｕｍｇｒａｍｉｎｉｃｏｌａ）分别减少３．６％和３．６％、草蛉（Ｃｈ?