Effects of Density and Miantaijin Chemical Control on Boll Characteristics and Physiological Activity of Direct-Seeded Cotton after Wheat Harvest     

Liu Yuanyuan  Lin Yuan  Liu Xiaofei  Cai Zezhou  Chen Yuan  Zhang Xiang  Chen Dehua 《棉花学报》2021,32(6):552-560

[Objective] The aim of this research is to study the effects of planting density and Miantaijin(diethyl aminoethyl hexanoate·mepiquat chloride of mass fraction 27.5%) chemical control on physiological leaf characteristics and boll setting characteristics of direct-seeded cotton after wheat harvest. [Method] In 2011―2012, the early-maturing variety Guoxinzao 11-1 was used as the experimental material. The study was conducted in Yangzhou University in 2011―2012 under the direct-seeded after wheat harvest cropping system, and the randomized complete block design was arranged with planting densities and Miantaijin rates. [Result] Under the density 105 000 plant·hm^－2 combined with 1 170 mL·hm^－2 Miantaijin, the boll setting was mainly concentrated before August 31. The SPAD value, soluble sugar content, soluble protein content, free amino acid content on July 15, July 30, August 15 of direct-seeded cotton after wheat harvest showed significant or extremely significant open-down parabola relationship with the number of bolls before August 31. It indicates that keeping the appropriate level of carbon and nitrogen physiological activity in cotton leaves is beneficial to high-quality bolls. [Conclusion] High density (105 000 plant·hm^－2) combined with proper Miantaijin control (1 170 mL·hm^－2) would contribute to forming quality bolls of direct-seeded cotton after wheat harvest, and the physiological activities of leaf carbon and nitrogen are suitable.  相似文献   

江苏滨海盐碱地麦后直播棉氮、磷、钾肥料优化配比研究   总被引：4，自引：0，他引：4  

杨长琴  刘瑞显  张国伟  王晓婧  倪万潮 《棉花学报》2020,32(1):11-20

【目的】建立江苏省滨海盐碱地麦后直播棉合理的施肥技术体系。【方法】2017―2018年在江苏省滨海棉田,以中棉所50为材料,采用正交设计,研究了不同氮、磷、钾肥配施量对棉花生物量、养分累积与利用及产量的影响。【结果】氮、磷、钾肥3因子对棉株地上部和生殖器官生物量、棉株地上部氮和钾素累积量及皮棉产量的影响均为氮肥>磷肥>钾肥。施N 150~225 kg·hm-2、P2O575 kg·hm-2下棉株地上部和生殖器官生物量、氮和钾累积量及皮棉产量较高。钾肥因子对生殖器官生物量和皮棉产量影响不显著。钾肥因子对氮、钾素利用效率的影响大于氮肥和磷肥,氮肥因子对磷素利用效率的影响大于磷肥和钾肥,施K2O 75~150 kg·hm-2氮、钾素利用效率较高、施氮225 kg·hm-2磷素利用效率较高。土壤碱解氮、速效磷、速效钾含量较高棉田的氮、磷(P2O5)、钾(K2O)肥配施量分别为225 kg·hm-2、75 kg·hm-2和150~225 kg·hm-2。相关分析表明,皮棉产量与棉株氮、钾素累积量显著正相关。【结论】长江流域棉区滨海盐碱地麦后直播棉利于产量和养分利用效率提高的最佳氮、磷(P2O5)、钾(K2O)肥配施量分别为225 kg·hm-2、75 kg·hm-2、75 kg·hm-2。  相似文献   

行距对机采棉干物质积累及氮磷利用效率的影响   总被引：1，自引：0，他引：1  

尔晨  林涛  张昊  田立文  崔建平  郭仁松  邓方宁  汤秋香 《棉花学报》2020,32(1):77-90

【目的】新疆棉花生产的主要环节均已实现机械化,但采摘环节仍大量使用人工,农机农艺不协调是导致机收比例低的主要原因。优化机采棉行距配置是实现农机农艺融合的有效途径,因此本研究通过设置不同的机采棉行距,探究其对棉花产量形成及养分利用的影响,为机采棉行距配置的优化提供理论依据。【方法】采用随机区组设计,选择生产中最佳密度,在密度一致基础上,设置"一膜三行"(S1,平均行距76 cm)、"一膜四行"(S2,平均行距57 cm)、"一膜六行"(S3,平均行距38 cm)3种行距,其中S3处理为常规机采行距(CK),研究行距对棉花干物质积累、分配以及对产量形成及氮、磷养分吸收利用的影响。【结果】不同行距下棉花干物质的积累符合Logistic生长函数模型。2年均值表明随着平均行距的降低,单株干物质积累总量降低43.3%,干物质最大积累速率降低(1.4 g·株-1·d-1),快速积累期起始时间从出苗后51.4 d逐渐推迟至62.5 d,但快速积累持续时长从19.7 d增加至35.1 d。增加行距显著提高单株成铃(0.9个),对铃重及衣分无显著影响,籽棉及皮棉产量显著增加16.7%和17.4%。行距对植株养分积累与分配有显著的影响,S1处理氮积累总量(907.0 kg·hm-2)、磷积累总量(58.3 kg·hm-2)、吐絮期经济器官氮分配率和磷分配率(N 55.7%和P2O569.1%)、每100 kg皮棉氮素吸收量(32.1 kg)均最高;而S3处理氮积累总量(664.5 kg·hm-2)、磷积累总量(38.9 kg·hm-2)最低,S2处理吐絮期经济器官氮分配率和磷分配率(N 48.5%和P2O560.3%)、每100 kg皮棉氮素吸收量(28.6 kg)最低。【结论】综合来看,一膜三行下植株养分指标及产量均优于其他行距,更适宜作为高效机采的行距。  相似文献   

缓释氮肥对小麦后直播棉产量及氮素吸收利用的影响   总被引：1，自引：0，他引：1  

徐景丽  李亚兵  胡大鹏  周明园  梁潘潘  吴慧敏  张祥  陈源  陈德华 《棉花学报》2020,32(1):42-51

【目的】研究缓释氮肥运筹对小麦后直播棉产量及氮素吸收利用的影响。【方法】2016―2017年以短季棉品种中棉所50为材料,采用小麦后直播的种植方式,设3个缓释肥氮素用量:45、90和135 kg·hm-2,2个施用时期分别为2叶期和4叶期。以常规氮肥尿素(纯氮90 kg·hm-2,CK1)和不施肥为对照(CK2)。【结果】缓释肥氮素90 kg·hm-2,并于2叶、4叶期施用产量较高,其中2017年籽棉产量显著高于其它处理,分别达4198.7和4037.8 kg·hm-2,比对照CK2分别高517.2和356.3 kg·hm-2,干物质积累量也表现为缓释肥氮素用量90 kg·hm-2于2叶、4叶期施用较高,其中2017年分别达到14090.5 kg·hm-2、13564.5 kg·hm-2,分别比对照CK2高12.6%和8.4%。氮素积累量表现相似的结果。氮素利用效率结果进一步表明,2叶期施缓释肥氮素用量45 kg·hm-2的处理氮素回收利用率(NARE)、氮素农学利用率(NAE)及氮素生理利用率(NPE)都最高,2叶期施缓释肥氮素用量90 kg·hm-2的处理其次,如2017年2叶期施缓释肥氮用量45 kg·hm-2处理的上述3个氮素利用效率分别为75.62%、23.68%、77.26%,施缓释肥氮素用量90 kg·hm-2处理则分别为60.9%、19.9%、46.6%,而对照CK2仅为53.79%、14.12%、40.91%。【结论】小麦后直播棉在2叶期一次性施用缓释肥氮素用量90 kg·hm-2能显著提高氮素利用效率,促进群体干物质生产并实现高产,同时达到轻简高效的目的。  相似文献   

Effects of Nitrogen Application Rates on Soil Nitrogen Content,Nutrient Uptake and Utilization of Cotton in Low Fertility Fields   总被引：5，自引：3，他引：2  

Qin Yukun  Li Pengcheng  Zheng Cangsong  Sun Miao  Liu Shuai  Dong Helin  Xu Wenxiu 《棉花学报》2019,31(3):242-253

[Objective] The effects of nitrogen (N) application rates on cotton yield, nutrient uptake and utilization rate, soil available N and urease activity were investigated in low-fertility cotton fields of the Yellow River Basin. [Methods] Six N application rate treatments, 0, 90, 180, 270, 360 and 450 kg·hm^－2 (N0, N90, N180, N270, N360 and N450, respectively), were established using cotton CCRI 79 in the field during 2016 and 2017. The cotton yield, dry matter quality, N, phosphorus and potassium accumulation levels, N use efficiency, 0–100-cm soil layer ammonium and nitrate N contents, 0–100-cm soil layer urease activity and other indicators were investigated. [Results] (1) Compared with N0, the N treatments significantly increased seed cotton yield, except the N90 treatment in 2016. Two years of N360 treatments significantly increased the number of bolls per cotton plant, while no significant differences were found among the seed cotton yields with other N treatments. The N application rates had no significant effect on lint percentage. (2) Compared with N0, N applications significantly increased the cotton dry matter accumulation. The accumulation of N, phosphorus and potassium in cotton increased along with the N application rates in the 90–360 kg·hm^－2 range. The levels of N, phosphorus and potassium in N450-treated cotton decreased compared with N360-treated cotton. As the N application rates increased, the N agronomic efficiency and N fertilizer partial productivity of cotton decreased. When the N application rates exceeded 360 kg·hm^－2, the N physiological efficiency began to decrease, but there were no significant differences among treatments. (3) The nitrate N contents in the 41–80-cm soil layers of the treatments, except for N90, significantly increased compared with N0. The nitrate N contents in the 41–80-cm soil layers of N270-, N360- and N450-treated cotton were significantly increased compared with those of N0, N90 and N180. However, N applications had no significant effects on the ammonium N contents in the soil. (4) The soil urease activities increased when N application rates were less than 360 kg·hm^－2, and then decreased when the N application rates were greater than 360 kg·hm^－2. [Conclusion] The optimum N application rate was 277.0 kg·hm^－2. When the N application rates were greater than 360 kg·hm^－2, the nitrate N contents in the soil increased. However, the nutrient accumulation levels and the N fertilization efficiencies decreased, and the soil urease activities were inhibited. No obvious increase in cotton yield was observed.  相似文献   

Effects of Population Density of Bolboschoenus planiculmis on the Absorption and Accumulation of Cotton Nutrients     

Cai Xiaohu  Lin Ping  Shi Yahui  Han Rui  Zhang Yudong  Wu Na  Wang Jungang 《棉花学报》2013,32(2):143-150

[Objective] The aim of this study is to clarify the competition of the absorption and accumulation of nutrients in cotton by the Bolboschoenus planiculmis (F. Schmidt) T. V. Egorova. [Method] In this experiment, the population densities of B. planiculmis were set at 0, 20, 40, 60, 80, 100 plant·m^－2. The contents of phosphorus, potassium, nitrate nitrogen, soluble sugar and soluble protein in cotton seedling stage, bud stage and flowering and boll stage were detected to study the effect of population density of B. planiculmis on the nutrient absorption and accumulation of cotton. [Result] At the cotton seedling stage, when the population density of B. planiculmis was 20 plants·m^－2, the soluble protein content of cotton leaves increased significiantly (P＜0.05) compared with the CK, but there was no significant difference in other indicators. However, the higher population density of B. planiculmis could reduce the soluble protein content of cotton leaves and increase the soluble sugar content of cotton leaves. At the cotton bud stage, when the population density of B. planiculmis was lower than 40 plants·m^－2, the phosphorus content in cotton leaves increased significantly. At the cotton boll stage, the population density of all B. planiculmis populations could reduce the content of potassium and soluble sugar in cotton leaves. When the population density of B. planiculmis was 20 plants·m^－2, no significant effects were found on cotton yield. But under other population densities, the cotton yield was significantly reduced. [Conclusion] When the population density of B. planiculmis was higher than 20 plants·m^－2, significant effects were found on the absorption and accumulation of cotton nutrients and cotton yield.  相似文献   

The Plant Architecture of Direct-Sowing Cotton Planted after Barley Harvested with High Yield and Centralized Boll-Setting   总被引：2，自引：2，他引：0  

Zhang Xiang  Hu Dapeng  Li Yabing  Tian Xiaofeng  Wang Guoping  Lu Jun  Hua Mingming  Chen Yuan  Chen Dehua 《棉花学报》2017,29(6):513-524

[Object] The study was conducted to investigate the plant architecture characteristic of direct sowing cotton planted after barely harvested with high yield and centralized boll-setting in the Yangtze River basin. [Method] In 2014, the cultivars Guoxin 12-1, Yijimian and Lumianyan 36 were used and the two conventional fertilizer (CF) application rates (namely pure nitrogen 45 kg·hm^－2, 150 kg·hm^－2) and Guoxin 12-1 was used in 2015. Two slow release fertilizer (SR) utilization rates (namely pure nitrogen 150 kg·hm^－2 and 225 kg·hm^－2) and two SR topdressing at different growth stages (namely 100% topdressing at seedling stage, 70% topdressing at seedling stage + 30% at flowing stage) were set with CF (pure nitrogen 150 kg·hm^－2) and no fertilizer treatment as the controls. [Result] While the pure nitrogen (CF) amount was 150 kg·hm^－2, the seed cotton yield of Guoxin 12-1 were 4 014.72 kg·hm^－2. In 2015, the seed cotton yield for the treatment, application SR (pure nitrogen 150 kg·hm^－2)and application ratios of seedling stage and flowering stage of 100% and 0, respectively, increased by 30.96%. The ratios of bolls setting from 08-15 to 08-30 to total bolls (RBT) for the two treatments were 31.8% and 26.1%, respectively. Then a significantly positive correlation between the seed cotton yield and RBT was found（r2014＝0.948^**, r2015＝0.976^**）. Based on the analysis of relationship between the plant architecture indexes and RBT, plant architecture characteristics of cotton population with high yield and centralized boll-setting was proposed. [Conclusion] These indexes would be used to supervise the cotton culture management to achieve high yield and centralized boll-setting for the direct sowing cotton planted after barely harvested.  相似文献   

氮素对滨海盐土棉花产量、品质及生物量的影响   总被引：2，自引：1，他引：2  

邹芳刚  王友华  赵文青  陈兵林  孟亚利  周治国 《棉花学报》2015,27(3):232-240

为研究不同施氮量对滨海盐土花后棉株生物量、生物量累积特征及其与产量、品质的关系,于2010年和2012年在江苏滨海盐土设置了氮肥水平试验。结果表明:在0~600 kg·hm-2范围内施氮量越大棉株总生物量累积越多,而皮棉产量2010年和2012年分别在施氮375 kg·hm-2和300 kg·hm-2时达到最大;成铃数在施氮300~375 kg·hm-2范围内达到最大;铃重和衣分随施氮量增加而增加,达到最大值后(≥300 kg·hm-2)差异不显著。在300~375 kg·hm-2施氮量范围内纤维比强度最高;高氮有利于上部、顶部果枝纤维长度、比强度、伸长率的提高和马克隆值的优化,但显著降低中下部果枝棉纤维比强度,导致中部纤维马克隆值变劣、下部果枝纤维伸长率下降,说明高氮对中下部果枝棉纤维品质的形成利弊各半,适量高氮可提高上部及顶部果枝产量、品质。在滨海盐土条件下,利于产量、品质及氮素利用效率提高的适宜施氮量为375 kg·hm-2。  相似文献   

Cotton Chemical Topping by Applying DPC in Different Cotton-Growing Regions     

Qi Haikun  Wang Sai  Xu Dongyong  Lu Zhengying  Zhao Wenchao  Hao Yanjie  Zhang Xiang  Li Wei  Han Huanyong  Wang Jiangtao  Wang Hongzhe  Chen Hongzhang  Wang Lin  Du Mingwei  Tian Xiaoli  Li Zhaohu 《棉花学报》2013,32(5):425-437

[Objective] The objective of this study was to investigate the stability and universality of cotton chemical topping by applying mepiquat chloride (1,1-dimethyl-piperidinium chloride, DPC) in different cotton-growing regions. [Method] Field experiments were conducted in 2018 at 10 locations in the Yellow River basin (Hejian and Handan, Hebei province; Dezhou and Wudi, Shandong province), the Yangtze River basin (Dafeng, Jiangsu province; Huanggang, Hubei province), and Xinjiang area (Shihezi location I and loacation II, northern Xinjiang and Luntai and Shaya, southern Xinjiang). Local cultivars/lines were used, and the experiments were performed using a randomized complete block design with three or four replicates. Accompanied with typical DPC multi-application in each location, chemical topping was conducted at 10 days before manual topping (T1) or at the same time with manual topping (T2) by applying four dosages of DPC (0, 90, 180, 270 g·hm^－2), manual topping was used as the first control and non-topping as the second control. [Result] The time of chemical topping significantly affected cotton plant height (except for the results in Handan, Dezhou and Wudi) and the number of fruit branches (except for the results in Dafeng and Huanggang). It was observed that earlier chemical topping would result in lower cotton plant height and a fewer fruit branches. In Hejian and Shihezi location I, the average plant height across DPC chemical topping at T1 stage was not only lower than that of T2 stage but also 3.3 cm and 4.6 cm lower than that of manual topping, respectively. In most locations, chemical topping at T1 stage increased around two fruit branches per plant compared with manual topping, while in T2 stage the increased fruit branches per plant ranged from 2.3 to 7.7. Also, we found that a higher dosage of DPC resulted in shorter plant height (except for that in Huanggang). In some locations, plant heights of chemical topping with 180 g·hm^－2 or 270 g·hm^－2 DPC were even shorter than that of manual topping. The number of fruit branches per plant of 0 g·hm^－2 DPC increased by 2.4-8.3 compared with manual topping. However, chemical topping with 90-270 g·hm^－2 DPC significantly reduced the number of fruit branches compared with 0 g·hm^－2 DPC. There were no significant differences in the number of fruit branches among three DPC dosages (90, 180, and 270 g·hm^－2). In Handan, seed cotton yield of chemical topping at T2 stage was significantly lower than that of manual topping due to the decreased boll number, which is possibly associated with the high temperature and drought weather after chemical topping. While at other locations, most treatments of chemical topping by using DPC did not produce significant effects on yield. In addition, chemical topping by using DPC did not delay cotton maturity, characterized by their similar boll-opening rate and the first harvest rate to those of manual topping before spraying harvest aids. [Conclusion] Cotton chemical topping with DPC is more stable and universal across different cotton-growing regions. We suggest that 90-180 g·hm^－2 DPC could be used at the same time with manual topping for cotton chemical topping.  相似文献   

食葵氮磷钾肥对产量相关性状的影响及经济效益分析     

白苇  胡杨  李峰  张宝英  崔金丽  杨素梅 《中国农学通报》2022,38(26):62-68

为研究氮、磷、钾肥对食葵产量及产量相关性状的影响,寻求最佳施肥量与经济效益之间的平衡点,采用“3414”设计通过3年田间试验,建立了氮、磷、钾肥与产量及产量相关性状的效应函数,结果显示：3种肥料对食葵产量影响排序为钾>氮>磷,对百粒重和单盘粒重影响排序均为钾>磷>氮,氮、磷、钾肥对产量、百粒重、单盘粒重的单因素效应均呈先升高后下降的趋势。两因素互作中,PK互作的产量最高。最高产量的施肥组合为氮肥61.5 kg/hm²、磷肥35.0 kg/hm²、钾肥50.1 kg/hm²、产量2309.0 kg/hm²,产投比13.8;最经济产量的施肥组合为氮肥57.5 kg/hm²、磷肥34.9 kg/hm²、钾肥47.9 kg/hm²、产量2307.8 kg/hm²,产投比14.3。最经济产量施肥量较少,肥料成本低,产值低,收入高,产投比高。  相似文献   

Nitrogen Fertilizer and Its Residual Effect on Cotton Yield and Biomass Accumulation   总被引：5，自引：2，他引：3  

Song Xinghu  Tufail Ahmed Wagan  Biangkham Souliyanonh  Saif Ali  Huang Ying  Yuan Yuan  Yang Guozheng 《棉花学报》2018,30(2):145-154

[Objective] The optimum nitrogen rate of 300 kg·hm^－2 is well documented for cotton in the Yangtze River Valley, China. It can be reduced to 225 kg·hm^－2 without reducing yield in late sowing under high planting density. The aim of this study was to determine the possibility of further reducing the nitrogen application rate at the first flower stage, its residual effects and influence on cotton yield formation rule. [Method] A pot experiment was conducted with five nitrogen levels (120, 150, 180, 210 and 240 kg·hm^－2) in 2014, but only 180 kg·hm^－2(for studying nitrogen residual effect) in 2015, to study the cotton growth process, yield and its components and biomass accumulation. [Result] Nitrogen levels significantly affected the yield and biomass accumulation, but not the growth process and nitrogen residual effect. Maximum seed cotton yield (30.5 g·plant^－1), boll weight (3.8 g) and biomass accumulation, especially in the reproductive and vegetative organs, was recorded in the 180 kg·hm^－2 nitrogen treatment. In the rapid accumulation period, the proportion of biomass accumulation in the reproductive organs was the highest. [Conclusion] In a soil with medium fertility level, the application of 180 kg·hm^－2 nitrogen was optimal, because the strength of biomass accumulation in reproductive organs increased during the rapid accumulation period.  相似文献   

中国北方主要棉区土壤供钾能力及其与产量和品质的关系   总被引：1，自引：0，他引：1  

Li Shutian  Xing Suli  Cui Rongzong  Zhang Yan 《棉花学报》2015,27(5):445-453

2012―2013年在山东平原县、河北威县、新疆昌吉市代表性棉田上采集土壤(0~20 cm)和棉花样品,分析北方棉区土壤钾素状况、供钾能力及其与棉花产量和纤维品质的关系。结果表明,平原、威县、昌吉棉田速效钾含量平均分别为217、128、232 mg·kg-1,供钾能力平均分别为128.2、105.1、213.6 kg·hm-2,每生产100 kg皮棉棉花地上部分别吸收K 9.77、7.82、12.25 kg。不同棉区土壤速效钾含量与皮棉产量和地上部吸钾量相关性不同,在平原和昌吉,当土壤速效钾含量分别小于123 mg·kg-1和220 mg·kg-1时,与皮棉产量和地上部吸钾量具有显著正相关。3个植棉区棉花的吸钾量与子棉产量、皮棉产量都呈显著的正相关。棉花地上部吸钾量、纤维吸钾量和纤维含钾量与纤维品质指标的相关性不同地点差异大。  相似文献   

仙草氮磷钾施肥效应及其适宜用量研究   总被引：1，自引：1，他引：0  

危天进 《中国农学通报》2015,31(27):142-146

为探索不同氮磷钾肥施肥量对仙草产量的影响,应用“3414”设计方案进行氮磷钾肥效田间试验。结果表明：对仙草产量影响效应大小的肥料种类依次为钾肥＞氮肥＞磷肥;根据肥料效应函数,结合当地仙草生产实际,仙草最高施肥量为N 200.7 kg/hm²、P₂O₅ 94.7 kg/hm²和K₂O 262.5 kg/hm²,最高产量为11089 kg/hm²,三要素最佳比例为1:0.47:1.3;最佳经济施肥量为N 193.7 kg/hm²、P₂O₅ 88.4 kg/hm²和K₂O 241.4 kg/hm²,最佳经济产量为11072.4 kg/hm²,三要素最佳比例为1:0.46:1.25。仙草生产中应重视氮磷钾肥的配合施用,应采用磷含量较低、氮钾含量较高的复合肥。  相似文献   

Interaction of Plant Density with Mepiquat Chloride Affects Plant Architecture and Yield in Cotton   总被引：2，自引：2，他引：0  

Xing Jin  Zhang Siping  Zhao Xinhua  Yan Zhenzhen  Wei Ran  Zhang Lizhen 《棉花学报》2018,30(1):53-61

[Objective] The effect of planting density and mepiquat chloride (DPC) on cotton plant architecture, growth, yield, and quality at Anyang City, Henan Province, China, was studied. [Method] Field experiments with cotton variety Lumianyan 28 were conducted with five planting densities (15 000, 45 000, 75 000, 105 000, and 135 000 plants·hm^－2) and application of DPC at three concentrations (0, 195, and 390 g·hm^－2). [Result] Increasing cotton plant density resulted in increased internode length and plant height but also caused the decrease of inclination of fruiting branches and leaves as well as elevated dry matter allocation to leaves and fruiting branches, which led to a decrease in dry matter accumulation. Application of DPC reduced the azimuth angle of fruiting branches and plant height, but increased the insertion angle of fruiting branches with the main stem, leaf length, and petiole length. Planting density and DPC treatment showed a significant interaction on fruiting branch insertion angle, plant height, stem diameter, and dry matter allocation to fruits and leaves. The interaction of DPC and planting density had a complementary effect on the spatial distribution of cotton-yielding bolls. The final dry matter was highest (14 362 kg·hm^－2) at the planting density of 105 000 plant·hm^－2 and DPC application of 390 g·hm^－2, which resulted in the highest seed yield (3 257 kg·hm^－2). [Conclusion] For maximization of cotton yield and quality, a plant density of 75 000 to 105 000 plants·hm^－2 and DPC application of 195 to 390 g·hm^－2 in the Yellow River cotton-producing region is recommended. The results may help to optimize labor-saving cotton management and to generate a plant architecture suitable for mechanical harvesting in the Yellow River cotton-producing region.  相似文献   

氯甲基吡啶对滴灌棉花生物量、氮素吸收及氮肥利用率的影响   总被引：3，自引：0，他引：3  

Liu Tao  Tao Rui  Li Jun  Chu Guixin  Liang Yongchao  Lei Jun 《棉花学报》2015,27(5):463-468

在田间滴灌条件下,采用单因素随机区组设计,设置CK(不施氮肥)、Urea(尿素)和Urea+Nitrapyrin(尿素+氯甲基吡啶)3个处理,重复4次,分别于2012和2013年研究了尿素添加硝化抑制剂氯甲基吡啶(Nitrapyrin)对棉花生物量、氮素吸收及氮肥利用率的影响。2年试验结果表明,尿素添加氯甲基吡啶随水滴施能增加棉株的生物量、吸氮量及产量,使植株地上部分的生物量和吸氮量较单施尿素分别提高4.1%~5.1%、4.3%~4.4%,皮棉产量提高4.1%~4.4%;其中,茎、叶、蕾花铃的生物量较单施尿素分别增加2.7%~4.5%、14.9%~16.2%和2.5%~3.9%,吸氮量则分别提高0.4%~1.1%、12.2%~16.3%以及2.9%~3.4%;氯甲基吡啶的添加能提高棉田氮肥利用率11.5%~12.5%。研究结果可为应用硝化抑制剂氯甲基吡啶促进滴灌农田氮肥高效利用提供理论依据。  相似文献   

蕾期调亏灌溉对海岛棉棉铃发育及产量的影响   总被引：8，自引：2，他引：6  

Yan Manman  Zheng Jianchao  Zhang Jusong  Tian Liwen  Guo Rensong  Lin Tao  Shi Hongliang 《棉花学报》2015,27(4):354-361

以新海24号、新海35号为材料,设置滴灌定额0 m3·hm-2(重度调亏,土壤含水量10%左右)、900 m3·hm-2(轻度调亏,土壤含水量16%左右)、1800 m3·hm-2(丰水,土壤含水量20%左右)3个处理,研究蕾期调亏灌溉对海岛棉棉铃发育及产量的影响。结果表明:0 m3·hm-2处理的铃直径、铃体积分别在花后10 d内、20 d内快速增大,铃重在花后30 d内增长速度较快;但铃直径、铃体积在开花后30 d,铃重在开花后50~60 d,均较900 m3·hm-2和1800 m3·hm-2处理显著下降。900 m3·hm-2处理的铃直径、铃体积及铃重均与1800 m3·hm-2处理无明显差异。皮棉产量以900 m3·hm-2处理最高,平均为2372.92 kg·hm-2,比1800 m3·hm-2和0 m3·hm-2分别高10.97%和41.78%。因此,海岛棉蕾期滴灌定额以900 m3·hm-2较为适宜。  相似文献   

控释氮肥对盆栽棉花产量及土壤养分状况的影响   总被引：4，自引：1，他引：3  

Geng Jibiao  Zhang Min  Li Chengliang  Zheng Wenkui  Tian Xiaofei 《棉花学报》2015,27(5):401-407

通过盆栽试验,研究了硫加树脂包膜尿素(PSCU)和树脂包膜尿素(PCU)2种控释氮肥及普通尿素对棉花产量及土壤养分变化的影响。结果表明:控释氮肥一次基施较等氮量普通尿素一次基施子棉产量显著增加6.78%~28.91%,但与等氮量尿素基施40%加追施60%处理产量差异不显著。基施控释氮肥较尿素增加了棉花铃重,但对衣分和单株成铃数没有显著影响;且显著提高了盛花期和始絮期土壤中的硝态氮和铵态氮含量,同时也显著提高了初花期和盛花期土壤中的速效钾含量,但不同处理间有效磷含量差异不显著。因此,在盆栽条件下,控释氮肥一次基施既可满足棉花全生育期对氮素的需求,又在保障产量的前提下减少了追肥次数。  相似文献   

Response of Enzyme Activity of Soil to Urea Application Rate in a Cotton Field Trial   总被引：1，自引：0，他引：1  

Li Pengcheng  Dong Helin  Liu Jingran  Liu Aizhong  Sun Miao  Li Ruyi  Li Yabing  Zhang Siping  Zhao Xinhua  Mao Shuchun 《棉花学报》2015,27(6):542-549

We studied the response of urease activity of soil in cotton field to different long-term urea (amide nitrogen) application (N application rates were 0, 90, 180, 270, 360, 450 kg·hm^－2), as well as responses of dehydrogenase and proteinase activity of soil at the harvest stage of cotton. The results showed that urease activity of soil increased with increased urea application rate, and urease activity at 0-20 cm soil depth were close to those at 20-40cm soil depth. In contrast, urease activity of soil greater than 40 cm soil depth decreased with increased soil depth. There was a significant positive correlation between urease activity and total N content, organic matter content, and available N content of soil. Dehydrogenase and proteinase activities increased with increased urea application rate (0-360 kg·hm^－2); however, at the urea application rate of 450 kg·hm^－2, dehydrogenase and proteinase activities declined. When the urea application rate was 270-360 kg ·hm^－2, urease, dehydrogenase and proteinase activities were much higher than those of the urea application rate less than 270 kg ·hm^－2, and there was no significant effect on urease, dehydrogenase and proteinase activities when urea application rate was 270-360 kg·hm^－2 in the cotton field.  相似文献   

棉花短季直播栽培模式对产量构成及纤维品质的影响   总被引：4，自引：1，他引：3  

阳会兵  马一学  陈金湘  刘爱玉  代英男 《棉花学报》2016,28(2):160-169

为探索棉花短季直播高产栽培技术模式,2014年在湖南农业大学浏阳试验基地,采用"311"最优回归设计方案研究了播期、密度和施氮量对早熟品种JX0010的产量构成及纤维品质的影响。对不同处理的棉铃时空分布、棉花产量及纤维品质的分析结果表明:不同处理棉铃时间分布上以秋桃比例最大,空间分布上纵向分布以中下部成铃数所占比例大,横向分布以内围铃为主。根据结果,建立了3个栽培因子施氮量(x1)、密度(x2)、播种期(x3)与子棉产量的多项式回归方程:y=213.522+3.9331x1+6.414x2-21.4619x3-5.7541x12-4.321x22-7.5348x32~(-1)1.982x1x2-0.1645x1x3+3.5747x2x3。分析回归方程得出,单因子效应表现为播种期密度施氮量,交互作用表现为施氮量与密度的互作效应密度与播种期的互作效应施氮量与播种期的互作效应,根据回归方程得到子棉高产的最佳组合为施氮量202.35 kg·hm-2、密度6.20万株·hm-2、播种期5月19日,产量为5510.25 kg·hm-2。棉花纤维品质性状受影响的顺序为马克隆值断裂伸长率断裂比强度上半部平均长度长度整齐度指数。  相似文献   

种植密度和缩节胺调控对麦后直播棉产量和冠层特征的影响   总被引：9，自引：4，他引：5  

杨长琴  张国伟  刘瑞显  张雷  周关印 《棉花学报》2016,28(4):331-338

2013―2014年以早熟棉(中棉所50)为材料,采用裂区设计,在江苏省南京市研究了种植密度(7.50万、9.75万和12.00万株·hm~(-2))和缩节胺(DPC)调控(0,52.5和105.0 g·hm~(-2))对麦后直播棉产量和冠层特征的影响。结果表明:皮棉产量在不同种植密度下以12.00万株·hm~(-2)处理最低,在不同DPC用量水平下以0 g·hm~(-2)处理最低;种植密度与DPC调控存在互作效应,以种植密度9.75万株·hm~(-2)、DPC用量52.5~105 g·hm~(-2)处理产量较高,且产量构成中以铃数对产量的直接效应最大。对冠层特征影响表明,下部果枝夹角和长度随种植密度增加而降低,而中、上部果枝的夹角和长度、叶面积指数均以种植密度9.75万株·hm~(-2)处理较高;不同部位果枝夹角和长度、叶面积指数均随DPC用量增加而降低,而透光率则相反。相关分析表明,下部果枝夹角大、中部果枝较长及上部果枝夹角小且叶面积指数和透光率较高,有利于提高产量和霜前花率。综上,该棉区麦后直播棉种植密度9.75万株·hm~(-2)、DPC用量52.5~105 g·hm~(-2)(蕾期、开花期和打顶后用量比例为1∶2∶4),有利于改善棉花冠层特征,实现早熟高产。  相似文献