Response of successive three generations of cotton,bollworm,Helicoverpa armigera (Hübner),fed on cotton bolls under elevated CO_2

The growth, development and consumption of successive three generations of cotton bollworm, Helicoverpa armigera （Htibner）, fed on cotton bolls grown under elevated CO2 （double-ambient vs. ambient） in open-top chambers were examined. Significant decreases in protein, total amino acid, water and nitrogen content and increases in free fatty acid were observed in cotton bolls. Changes in quality of cotton bolls affected the growth, development and food utilization of H. armigera. Significantly longer larval development duration in three successive generations and lower pupal weight of the second and third generations were observed in cotton bollworm fed on cotton bolls grown under elevated CO2. Significantly lower fecundity was also found in successive three generations of H. armigera fed on cotton bolls grown under elevated CO2. The consumption per larva occurred significant increase in successive three generations and frass per larva were also significantly increased during the second and third generations under elevated CO2. Significantly lower relative growth rate, efficiency of conversion of ingested food and significant higher relative consumption rate in successive three generations were observed in cotton bollworm fed on cotton bolls grown under elevated CO2. Significantly lower potential female fecundity, larval numbers and population consumption were found in the second and third generations of cotton bollworm fed on cotton bolls grown under elevated CO2. The integrative effect of higher larval mortality rate and lower adult fecundity resulted in significant decreases in potential population consumption in the latter two generations. The results show that elevated CO2 adversely affects cotton bolls quality, which indicates the potential population dynamics and potential population consumption of cotton bollworm will alleviate the harm to the plants in the future rising CO2 atmosphere.

Reproductive Performance and Fiber Quality Responses of Cotton to Potassium Nutrition

Potassium (K) deficiency affects cotton growth and development and fiber properties. An experiment was conducted in an outdoor pot culture facility by imposing four potassium stress treatments (100%, 40%, 20% and 0% of optimum K level) prior to flowering during 2010 and 2011 growing season. Upland cotton cultivar, TM-1, was seeded in the pots comprised of fine sand as rooting medium. Flowers and bolls were tagged daily to estimate boll maturation period (BMP). Leaf samples were collected every four days from flowering to maturity to estimate leaf K content. Plant height and node numbers were recorded from emergence to 21 days after treatment. Photosynthesis and stomatal conductance were measured weekly from day of treatment imposition to physiological maturity at an interval of seven days. Stem, leaf, and boll dry-component weights, and boll numbers were recorded at the end of the experiment in each year. From each boll, the lint samples were collected and grouped based on average leaf potassium concentration during BMP, and fiber quality parameters were recorded for each group in each treatment. At high K deficient (0 K) condition, total biomass declined by 27% and 28% in years 2010 and 2011, respectively. Significantly, lower numbers of bolls were retained per plant at 0 K stress treatment during both the years. Leaf photosynthesis (r2 = 0.92) and stomatal conductance (r2 = 0.80) declined with declining leaf K levels. Fiber length, strength, micronaire, and uniformity declined linearly with decrease in leaf K content. Weaker fibers with medium length were produced under K-deficient conditions with micronaire values in the discount range. Fiber uniformity, however, did not decline with decrease in leaf K. The identified leaf K status-specific relationships for fiber properties could be used to improve management practices under potassium deficiency and to develop new sub-routines of the existing cotton simulation models. New and improved models will be useful not only in management, but also in arena of policy decisions including future climate change impact assessment analysis.

Screening for High-Temperature Tolerant Cotton Cultivars by Testing In Vitro Pollen Germination,Pollen Tube Growth and Boll Retention

With radical global climate change and global warming, high temperature stress has become one of major factors exerting a major Influence on crop production, In the cotton （Gossyplum hirsutum L.）-growlng areas of China, especially in the Yangtze River valley, unexpected periodic episodes of extreme heat stress usually occur In July and August, the peak time of cotton flowering and boll loading, resulting In lower boll set and lint yield. Breeding programs for screening high temperature-tolerant cotton germplasm and cultlvars are urgent In order to stabilize yield in the current and future warmer weather conditions. In the present study, 14 cotton cultivars were quantified for in vitro pollen germination and pollen tube growth in response to temperatures ranging from 10 to 50 ℃ at 5 ℃ intervals. Different cotton genotypes varied In their in vitro pollen germination and pollen tube length responses to the different temperatures. Maximum pollen germination and pollen tube length ranged from 25.2% to 56.2% and from 414 to 682 pro, respectively. The average cardinal temperatures （Tmin,, Topt, and Tmax） also varied among the 14 cultivars and were 11.8, 27.3, and 42.7 ℃ for pollen germination and 11.8, 27.8, and 44.1 ℃ for maximum pollen tube length. Variations In boll retention and boll numbers per plant in field experiments were found for the 14 cotton cultivars and the boll retention and boll retained per plant on 20 August varied considerably In different years according to weather conditions. Boll retention on 20 August was highly correlated with maximum pollen germination （R^2 = 0.84） and pollen tube length （R^2=0.64）. A screening method based on principle component analysis of the combination of pollen characterlatics In an in vitro experiment and boll retention testing In the field environment was used In the present study and, as a result, the 14 cotton cultlvars could be classified as tolerant, moderately tolerant, moderately susceptible and susceptible to high temperature.

田间条件下遮光对棉花棉铃发育及纤维品质的影响

研究了4个棉花品种花铃期遮光对棉铃发育及纤维品质的影响。结果表明,遮光导致棉花单株结铃数减少,棉铃最终生长量、最大干物质积累速率、干物重相对增长速率及单铃棉子数、铃壳重、粒重、纤维重降低。遮光对棉铃各组分的影响依次是纤维>子粒>铃壳。遮光后纤维长度增加,比强度和麦克隆值显著下降,但对伸长率及整齐度影响不显著。在自然光照条件下密植使纤维比强度降低显著,纤维长度有所增加,对其它品质指标影响不显著。应从选育品种、塑造合理株型、适当控制种植密度等措施入手,减轻弱光对棉铃发育及纤维品质的影响。

杏棉间作田间配置对棉花生长发育及棉铃时空分布的影响

为实现杏棉间作复合农业生态条件下棉花高产栽培,在杏树株行距配置为3m×6.5m、树高5.45m条件下,研究了棉花3种不同田间配置对棉花生长发育及棉铃时空分布的影响。结果表明,株距10cm、种植10行(B处理)棉花的株宽比最低,棉花的真叶数、倒4叶宽及果枝数有优势。棉花茎粗与棉花的株距呈正比。棉花单株干物质质量在整个生育期表现为B处理高于其余2个处理,并且毛地棉花群体干物质积累与单株干物质积累变化趋势一致;净地群体干物质质量则随着棉花净地密度的增大而增大。遮阴推迟了棉花生长发育,导致3种配置下棉花均以伏桃和秋桃为主;横向分布内围铃是构成棉铃主要部分,并且内围铃所占比例随着株距的增大而增加;纵向分布均以中下部棉铃为主。毛地皮棉产量表现为株距10cm配置(B处理)时最高,分别比株距12cm、8cm的高4.69%、19.96%;净地皮棉产量则表现为株距8 cm配置时最高,比株距10cm、12cm配置的分别高7.18%、30.91%。

棉花脱叶催熟剂对纤维品质的影响及应用时间的确定

棉花脱叶催熟技术是实现棉花机械采收的重要前提,确定脱叶催熟剂喷施时期及标准对实现良好的脱叶和催熟效果至关重要。本研究采用分期喷施脱叶催熟剂的方式,探讨了脱叶催熟剂对纤维品质的损伤程度,及与棉铃铃期之间的定量关系。结果表明,脱叶催熟剂对纤维长度的影响在品种间存在差异,46%~69%的供试品种纤维长度较对照下降或持平,另有31%~54%的品种纤维长度反而较对照增加,所有品种纤维长度较对照平均仅降低0.2%~1.2%。纤维比强度受脱叶催熟剂的影响较为明显,其损伤量(处理与对照的差值)集中分布在-4~0 cN tex^-1之间。脱叶催熟剂对纤维比强度的损伤程度与喷施时间有关,铃龄30 d时喷施损伤大,铃龄37 d时喷施损伤减小,且有61%供试品种的比强度较对照平均增加了1.1 cN/tex。脱叶催熟剂对纤维比强度的损伤量随棉铃铃期延长而加剧,因此可根据“脱叶催熟剂喷施时棉铃的铃龄与铃期的比值(Rd/b)”这一指标确定脱叶催熟剂的喷施时间。此外,棉铃铃期与棉铃体积、棉铃体积与纤维比强度均呈显著正相关关系。如要生产比强度>31 cN tex^-1的棉花纤维,所选品种的棉铃体积应>31.8 cm^3、棉铃铃期应>60.0 d,且要在Rd/b>0.68(铃龄40.9 d)后喷施脱叶催熟剂(可控制纤维比强度损伤量小于0.5 cN tex^-1)。

花铃期遮光对棉花生长发育和冠层结构的影响

[目的]研究花铃期遮光对棉花生长发育和冠层结构的影响,为果棉间作棉花栽培技术的合理制定提供依据。[方法]以中棉所49号和新陆早36号为材料,在大田条件下,研究遮光条件下棉花生育进程、农艺性状、冠层结构和透光率的变化。[结果](1)花铃期遮光,单株结铃数、籽棉和皮棉产量随着光强的降低,降幅显著增大,收获株数和单铃重降幅较小,但对衣分无明显影响。(2)遮光30%和50%处理的盛花期提前;盛铃期至吐絮期,随着遮光时间的延长和光强的减弱明显推迟;(3)遮光对棉株的主茎真叶数和果枝台数无明显影响;遮光50%的茎粗明显减小;随着光强的降低,倒四叶宽度和叶面积指数显著减小,遮光50%处理的冠层开度、平均叶倾角和透光率显著高于自然光。[结论]降低光照,延缓营养生长向生殖生长的转移。棉花叶片通过增大平均叶倾角,增加透光率而减小叶面积指数,以获取更多的光能,提高光能的利用效率。新陆早36号具有较强的形态学调节适应能力。适当降低光强,中棉所49号的产量降幅较小,但光强过弱,降幅大于新陆早36号,对弱光的敏感性较强。

棉株载铃量对其主要生育性状的影响

采用 熟性不同 的３ 个陆 地棉 品种 ，在 肥水 充 足的 生 长条 件下 ，研 究了 棉 株不 同载 铃 量对其主要 生育性状 的影响 。结果表 明， 棉株 载铃 量 对株 高、果枝 总长 、果 节总 数均 有 极强 的 影响 ，其影响强 度随载 铃量的增 加而增加 ，累积 影 响量 随棉 株 生长 发 育时 间的 延 长而 增大 ；但 棉株 载 铃量对主茎 节数、果 节平均长 度影响 不显 著。 由此 分析 了 蕾铃 脱 落和 棉株 旺 长之 间的 关 系，以 及 棉株在一定 地力条 件下适宜 的单株载 铃量。

氮素对花铃期短期渍水棉花根系生长的影响

于2005—2006年在江苏南京农业大学卫岗试验站进行盆栽试验,设置正常灌水(土壤相对含水量始终保持在75%±5%)和棉花花铃期土壤短期渍水处理(将正常灌水的棉花增加灌水至盆内有可见明水,持续8d,然后用导管排除表面水层,使盆内土壤相对含水量逐渐恢复到75%±5%),每个水分处理设置3个氮素水平(0、3.73、7.46gNpot-1,分别相当于大田0、240、480kgNhm-2),研究氮素对花铃期短期渍水棉花根系生长的影响。结果表明,在渍水处理结束时,与正常灌水处理相比,根干重和根冠比(R∶S)均降低;根系可溶性蛋白含量、超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性降低,过氧化物酶(POD)活性升高,丙二醛(MDA)含量升高;棉花根系活力和单株光合速率(CAP)显著降低。增加施氮可降低渍水棉花根系SOD活性,提高POD和CAT活性,以3.73gNpot-1(240kgNhm-2)施氮水平下的棉花根干物重最大,根系MDA含量最低,根系活力最强,单株光合速率(CAP)最高,相应籽棉产量最高。渍水停止15d后,渍水棉花根系抗氧化酶活性和MDA含量与正常灌水处理的差异较小;施氮仍可提高棉花根系POD与CAT活性,降低MDA含量,增强根系活力,提高CAP。

麦后移栽棉不同长势棉株棉铃干物质积累与产量品质形成的关系

以中熟品种苏棉４号为材料，研究麦后移栽棉不同长势棉株的不同花期棉铃各部分干物质积累与产量、晶质形成的关系。结果表明，健壮型棉铃内予棉干物质积累的速度最快；养分转化利用率最高；有利于产量和品质的形成。早衰型较差，贪青型居中。

氮素水平对棉铃干物质积累分配和纤维品质性状的影响

在南京(长江流域下游棉区)和徐州(黄河流域黄淮棉区)设置氮素水平(零氮:N 0 kg.hm-2,适氮:N 240 kg.hm-2,高氮:N 480 kg.hm-2)试验,研究了氮素对棉铃(伏桃、秋桃)干物质积累分配和纤维品质性状的影响。结果表明:棉铃各组成部分的干物质积累以纤维受氮素的影响最大,其次为棉子、铃壳。棉子与纤维间存在同步异速生长关系,这种关系可用模型y=a+bx表示(x、y分别代表棉子、纤维干重的自然对数,a为截距,b为线性回归系数)。零氮、高氮处理均降低了伏桃的b值,相应的纤维比强度亦显著降低;秋桃的b值在适氮与高氮处理间差异较小,但显著高于零氮处理,纤维长度、比强度及整齐度对氮素水平的响应亦呈现出相同趋势。综合分析认为,棉子、纤维异速生长方程的线性回归系数b越大越有利于高品质棉的形成。

超高产棉花器官同伸关系及棉铃空间分布特征的初步研究

【目的】超高产棉花器官同伸关系及棉铃空间分布特征，【方法】选用了3个棉花品种，观察叶、蕾、花等器官同伸关系及棉铃空间分布。【结果】初步得出超高产棉花果枝第1果节现蕾与主茎叶同伸关系为n＋1．5-n-1．2；第一果节开花与主茎叶同伸关系为n＋6．2～11＋8．8（n为果枝同位主茎叶叶龄）。【结论】超高产常规品种棉花中下部内围铃所占比例高达90％以上，是超高产棉田棉铃的主体，上部铃占10％左右，上部及外围铃是实现超高产的潜力所在；超高产杂交棉中部铃比例占50％以上，下部铃和上部铃相当，叶枝成铃4．3％，外围铃的比例近40％，抓住上部及外围成铃是创高产的关键。

缩节安对棉铃发育的影响

初花期给地膜栽培的中熟陆地棉(Gossypium hirsutum L.)品种抗岱16号亩喷缩节安3.2～4.8g,能明显提高棉株中、下部果枝和内、中围果节的成铃率;增加伏前桃和伏桃的比例;增进铃壳和子棉干物质积累的速度和铃壳中贮存物质向籽棉中运输的速度。缩节安还能使铃重、子指和衣指有所提高;它对棉纤维整齐度和秋桃纤维的强度有增加趋势,对纤维长度、细度无不良影响。

棉花蕾期干旱后复水在吐絮期补偿生长效应与铃数的相关性

为提高棉花水分利用率和培育抗旱高产品种,以补偿生长存在显著差异的6个棉花品系为材料进行蕾期不浇水干旱胁迫处理,以正常浇水为对照。胁迫期间调查各品系形态学指标,记录生育期,吐絮期计算补偿生长效应,统计单株铃数。结果表明:蕾期干旱胁迫缩短棉花生育期,降低株高、茎粗和纤维长度,提高叶片SPAD值。经相关性分析,棉花补偿生长效应与单株铃数和生育期成极显著负相关,相关系数为-0.91和-0.90,与单铃重成显著负相关,相关系数为-0.81,说明品系补偿生长效应越强,其生育期越短,单株铃数越少,单铃重越低。

花铃期不同滴灌量对海岛棉生长特性及产量的影响

【目的】研究花铃期不同滴灌量下棉花生长发育特性,为干旱区发展节水高产高效农业提供科学依据。【方法】以新海24号和新海36号为试验材料,灌量设3 900、3 150、2 400 m3/hm2三个水平,试验设6个处理3次重复,品种为副区,进行裂区试验。【结果】同一品种下,出叶速率、主茎日增长量、蕾铃数量、现蕾强度、成铃强度、单株结铃数、单铃重和皮棉产量均以滴灌量3 900 m3/hm2处理较高,3 150 m3/hm2处理次之,2400 m3/hm2处理较低;同一灌量下,新海24号的出叶速率快于新海36号,单株结铃数多于新海36号,其主茎日增长量、蕾铃数量、现蕾强度、成铃强度及单铃重均小于新海36号,新海24号皮棉产量较高。【结论】不同滴灌量主要影响棉花的单株结铃数和单铃重,在滴灌量3 900 m3/hm2下,依据各品种对不同滴水量响应的差异,结合相应的灌溉制度,有利于实现棉花高产。

棉田应用乙缩调节剂防病增产技术研究

１９９１～１９９４年连续４ａ应用乙缩调节剂对棉花进行化学去早蕾和调控的试验与示范。结果表明：安徽沿江棉区棉花应用乙烯利１０００～１５００ｍｇ／ｋｇ＋缩节胺１００ｍｇ／ｋｇ，每公顷３７５～６００ｋｇ药液，只喷棉株周围，其控制烂铃率效果达５５．０３％～７７．３０％，降低烂铃指数防效１５．２１％～１５．８４％，籽棉和皮棉增产效果分别为２６．１２％～３２．７９％和２６．８６％～３２．９９％，防病增产效果极显著。１９９４年采用试验结果进行示范：烂铃防效为６１．１５％，皮棉增产８．１８％。试验示范结果表明棉田应用乙缩调节剂是一项减轻棉花烂铃，提高产量的优质高产、高效的植棉新技术。

国家棉花品种区试方案中几个问题的商榷

国家棉花品种区域试验方案(以下简称《方案》)是各承试点操作实施的依据。结合承担国家黄河流域棉花品种区域试验的实践,分析了《方案》中一些项目如生育期、单株结铃数、铃重、取棉样等在执行过程中可能对试验结果产生的偏差,并提出建议与同行商榷。

新陆早74号棉花器官同伸关系及棉铃空间分布的初步研究

[目的]分析新陆早74号棉花各器官发生规律及蕾铃空间分布情况,探明该品种的生育特点及规律。[方法]设2个试验点,试验品种出苗后,每点各选10株棉花,调查整个生育期。[结果]新陆早74号第一果节蕾与同位主茎叶的同伸关系为n-1.97~n+1.60(n为主茎叶龄),第一果节花与同位主茎叶的同伸关系为n-7.9~n-5.7(n为主茎叶龄);该品种总体结铃表现为中、下部成铃率稍高,下、中、上部结铃分别占整株收获铃数的34.29%、33.17%、32.54%;棉株第一果节成铃率88.94%,结铃稳定,第二果节结铃率为11.06%。[结论]该研究可为新陆早74号大面积推广种植及合理化配套栽培技术探索提供理论依据。

非充分滴灌对棉花成铃质量的影响

旨在探明非充分滴灌对棉铃生长发育与纤维品质的影响,为棉田合理灌溉提供参考。选用中棉所49号与新陆中33号为供试材料,设置3个不同滴水量:3 450m3·hm-2(CK)、2 700m3·hm-2(W1)、1 950m3·hm-2(W2),研究非充分滴灌对棉花成铃的调控效应。结果表明:非充分滴灌轻度胁迫处理下伏前桃数量增加9.4%,单株成铃数降低18.4%;重度水分胁迫下"三桃"数量均下降,单株成铃数降低27.3%。棉铃干物质快速增加期持续的时间缩短3d,达到最大积累速率的时间提前2d,生育期提前8d。随干旱胁迫程度的加重棉铃体积下降,棉铃达最大体积所需时间缩短,所需时间随干旱胁迫程度的加重而减少。随灌水量的减少纤维长度变短,马克隆值增大,而在轻度水分胁迫下纤维强度增加。

棉铃发育与气象因子关系的研究

在江苏丰县研究了棉花伏桃和秋桃的生长发育规律,分析了气象条件对棉铃发育的影响,总结出了丰县棉花伏桃和秋桃结铃期的适宜气象条件,据此提出了提高棉花铃重的几点农业技术措施。