Foreign and United States upland cotton : quality comparisons and evaluations, 1955 crop /

Cover title.

Polyploid formation created unique avenues for response to selection in Gossypium (cotton)

A detailed restriction fragment length polymorphism map was used to determine the chromosomal locations and subgenomic distributions of quantitative trait loci (QTLs) segregating in a cross between cultivars of allotetraploid (AADD) Gossypium hirsutum (“Upland” cotton) and Gossypium barbadense (“Sea Island,” “Pima,” or “Egyptian” cotton) that differ markedly in the quality and quantity of seed epidermal fibers. Most QTLs influencing fiber quality and yield are located on the “D” subgenome, derived from an ancestor that does not produce spinnable fibers. D subgenome QTLs may partly account for the fact that domestication and breeding of tetraploid cottons has resulted in fiber yield and quality levels superior to those achieved by parallel improvement of “A” genome diploid cottons. The merger of two genomes with different evolutionary histories in a common nucleus appears to offer unique avenues for phenotypic response to selection. This may partly compensate for reduction in quantitative variation associated with polyploid formation and be one basis for the prominence of polyploids among extant angiosperms. These findings impel molecular dissection of the roles of divergent subgenomes in quantitative inheritance in many other polyploids and further exploration of both “synthetic” polyploids and exotic diploid genotypes for agriculturally useful variation.

陆地棉组织培养及转化研究

1．以MS无机盐+B 5有机成分为基本培养基，附加2，4-D，KT，ZT等激素，以农艺性状良好，抗枯萎病的棉花品种“冀492”为材料，建立了愈伤组织诱导，体细胞胚胎发生和植株再生体系． 2．实验结果表明，2，4-D是诱导愈伤组织产生的促进因子，效果明显好于其它生长素类物质，但是随着培养基中2，4-D浓度的升高，愈伤组织状态也会变差，褐化严重，而且，附加O.lppm 2，4-D，O.lppm K T的培养基是较为合适的培养基．IAA，NAA对愈伤组织的诱导不十分理想，此外，愈伤组织的产生还同外植体，基因型和一些物理条件有关， 胚性愈伤组织的产生，需不断调节培养基中激素浓度，逐步降低2，4 -D浓度，并添加低浓度ZT，胚状体要在去除2，4-D的培养基上才能产生．虽然，2，4-D对于胚性愈伤组织的诱导是必须的，但是却抑制胚状体的发育． 3．培养基中硝态氮和氨态氮比例，激素浓度和种类，活性炭的添加，对于胚状体的萌发和成熟有重要影响，硝酸钾加倍，硝酸铵减半，并附加低浓度ABA和活性炭是胚状体诱导和成苗（去除ABA）的适宜培养基，而附加0.2ppm N A A，0.2ppm ZT和活性炭的M S2培养基是胚状体成熟的适宜培养基．通过对胚性愈伤组织的干燥处理，培养基中低浓度ABA和活性炭的添加，比较有效地抑制了畸形胚的产生，大大地提高了正常胚的比例． 4．对陆地棉“冀4 9 2”的下胚轴和子叶利用含Bt抗虫基因的根农杆菌(AgrobacterIIm tumefrens)进行了遗传转化研究，在筛选培养基上获得了大量生长旺盛的阳性愈伤组织，葡糖酸苷检测结果表明，大部分愈伤组织均有G us基因的表达． 5．通过花粉管通道法，进行了将含有Bt抗虫基因DNA的大肠杆菌质粒导入陆地棉“冀492”的实验，并收获了近1 0，000粒种子，为从大量种子中筛选出抗性种质材料，建立了卡那霉素田间初步筛选法． 6．利用活体压片和石蜡切片技术对体细胞胚胎发生过程和胚状体起源进行了观察，发现胚状体发生主要是通过类合子途径进行的，胚状体可能起源于单细胞． 7．通过对相同培养基上的非胚性愈伤组织，胚性愈伤组织和不同时期胚状体的可溶性蛋白SDS - PAGE电泳分析，发现16KD和50K D蛋白特异性地存在于胚性愈伤和各期胚状体中，该蛋白可作为胚性愈伤组织的筛选标记．对不同发育时期的愈伤组织进行了同工酶和可溶性蛋白的IE F/SD S-PA G E双向电泳分析，结果表明，不同发育时期的愈伤组织同工酶酶谱和可溶性蛋白电泳图谱之间具有较大的差别，分化前期的胚性愈伤组织酶的活性强，种类多，并且有新的蛋白斑点的出现，这些都可能与体细胞胚胎发生相关．

棉花抗虫基因工程研究

本文通过根农杆菌（Agrobacterium tumfaciens）介导法分别将Signal和KDEL修饰的豇豆胰蛋白酶抑制剂（Cowpea trypsin inhibitor, CpTI）基因、豌豆外源凝集素（Pea lectin, P-Lec）和大豆Kunitz型胰蛋白酶抑制剂（Soybean Kunitz typsin inhibitor, SKTI）双价抗虫基因、雪花莲外源凝集素（Galanthus nivals agglutinin, GNA）基因以及高效复合启动子OM控制的苏云金杆菌（Bacillus thuringiensis, B.t.）杀虫毒蛋白基因导入了陆地棉（Gossypium hirsutum L.）栽培品种新陆早1号、新陆中2号、晋棉7号、冀合321、辽9和晋棉12号，并获得了大批转基因再生植株。 实验中对影响棉花转化和再生的一些条件进行了研究，从根农杆菌培养、棉花无菌苗的制备、转化操作和共培养等方面对转化条件进行了探讨;从激素配化、植物表达载体、外植体类型、基因型等方面对抗性愈伤组织的诱导进行了摸索;从激素、从碳源、培养容器、pH值、抗褐化剂及固化剂的选择等方面对影响植株再生的条件进行了优化。 本文开创性地采用嫁接代替移栽，从而极大地提高了转化植株定植成活率，缩短了缓苗时间并增加了转化植株当代的繁殖系数。 在建立了一套较为高效的陆地棉转化及再生系统基础上，本文还进行了其它转化方式和转化体系的初步探讨。利用棉花幼嫩种子无菌苗下胚轴作为外植体，通过改变愈伤组织诱导培养基配方面提高胚性愈伤组织的诱导频率，进而得到更多的体细胞胚状和再生植株，缩短再生周期;尝试用胚性愈伤组织作为外植体的根农杆菌介导法转化，确定了一些与转化有关的条件;建立了一套棉花茎尖培养程序，为运用基因枪法轰击棉花茎尖分生组织或用根农杆菌直接转化茎尖分生组织，以克服根农杆菌转化棉花时体胚发生的基因型局限开辟了一条新途径。 本文还建立了一种快速鉴定转化植株后代的方法。这一简便方法还有助于进行转基因棉纯合系的筛选以及外源基因的遗传稳定性研究。 转基因植株经Npt-II ELISA、PCR、PCR Southern 检测证明外源抗虫基因CpTI、SKTI、P-lec、GNA以及B.t.基因已存在于转化植株基因组内。修饰的CpTI转基因植株抗棉铃虫（Heliothis armigera Hubner）试验结果表明，其杀虫效果显著优于前期未修饰的CpTI转化植株。P－lec和SKTI双价转基因植株抗棉铃虫试验结果表明，转基因植株对棉铃虫幼虫具有较强的杀虫活力。 目前，已获得转以上抗虫基因棉花T1代植株。为今后进一步将植物基因工程技术应用于棉花遗传改良打下了基础。

土壤水分与短期遮光对棉花光合及其气孔响应的影响

以陆地棉 (Gossypium hirsutum L.Zhongmain No.2 3)为供试材料 ,探讨了在充分供水-水分胁迫 -复水的处理过程中 ,短期不同遮光水平对棉花光合特性及其气孔响应的影响。结果表明 ,在水分处理过程中 ,所有不同遮光水平的棉花叶片对短期遮光具有相似的基本响应规律 :短期遮光使净光合速率迅速降低 ,气孔导度减少 ,但减少速率缓慢 ;遮阳网去掉后 ,叶片气孔重新开放速率和光合恢复被延迟。水分胁迫期间 ,所有遮光处理的水分利用效率均最高 ,但净光合速率均较低 ,光合及其气孔响应受到严重限制 ,遮光 75%受到的影响大于遮光 40 %的处理。复水后水分胁迫带来的残留影响仍然存在 ,结果使水分利用效率在整个水分处理过程中最低 ,遮光 75%的处理尤为明显。上述表明 ,土壤水分与短期遮光对棉花光合及其气孔响应的影响十分显著

Decoupling EU farm support: Does the new single payment scheme fit within the green box?

Recent reform of the EU’s Common Agricultural Policy (CAP) has led to a further decoupling of farm support. The EU believes that the new Single Payment Scheme, which replaces the former system of area and headage payments to farmers, tied to production, will qualify for green-box status in the WTO. We examine this contention, particularly in light of the recent WTO panel report on upland cotton.

Caracterização fisiológica, bioquímica e anatômica em genótipos de algodoeiro herbáceo (gossypium hirsutum l.var. latifolium hutch) em função da aplicação de cloreto de mepiquat

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Commodity fact sheet.

"Summary of ... commodity loan and payment program."

Nitrous oxide emissions from irrigated cotton soils of northern Australia

An automated gas sampling methodology has been used to estimate nitrous oxide (N2O) emissions from heavy black clay soil in northern Australia where split applications of urea were applied to furrow irrigated cotton. Nitrous oxide emissions from the beds were 643 g N/ha over the 188 day measurement period (after planting), whilst the N2O emissions from the furrows were significantly higher at 967 g N/ha. The DNDC model was used to develop a full season simulation of N2O and N2 emissions. Seasonal N2O emissions were equivalent to 0.83% of applied N, with total gaseous N losses (excluding NH3) estimated to be 16% of the applied N.

Agronomic and economic evaluation of irrigation strategies on cotton lint yield in Australia

Cotton is one of the most important irrigated crops in subtropical Australia. In recent years, cotton production has been severely affected by the worst drought in recorded history, with the 2007–08 growing season recording the lowest average cotton yield in 30 years. The use of a crop simulation model to simulate the long-term temporal distribution of cotton yields under different levels of irrigation and the marginal value for each unit of water applied is important in determining the economic feasibility of current irrigation practices. The objectives of this study were to: (i) evaluate the CROPGRO-Cotton simulation model for studying crop growth under deficit irrigation scenarios across ten locations in New South Wales (NSW) and Queensland (Qld); (ii) evaluate agronomic and economic responses to water inputs across the ten locations; and (iii) determine the economically optimal irrigation level. The CROPGRO-Cotton simulation model was evaluated using 2 years of experimental data collected at Kingsthorpe, Qld. The model was further evaluated using data from nine locations between northern NSW and southern Qld. Long-term simulations were based on the prevalent furrowirrigation practice of refilling the soil profile when the plant -available soil water content is<50%. The model closely estimated lint yield for all locations evaluated. Our results showed that the amounts of water needed to maximise profit and maximise yield are different, which has economic and environmental implications. Irrigation needed to maximise profits varied with both agronomic and economic factors, which can be quite variable with season and location. Therefore, better tools and information that consider the agronomic and economic implications of irrigation decisions need to be developed and made available to growers.

Soil N2O and CO2 emissions from cotton in Australia under varying irrigation management

Irrigation is known to stimulate soil microbial carbon and nitrogen turnover and potentially the emissions of nitrous oxide (N2O) and carbon dioxide (CO2). We conducted a study to evaluate the effect of three different irrigation intensities on soil N2O and CO2 fluxes and to determine if irrigation management can be used to mitigate N2O emissions from irrigated cotton on black vertisols in South-Eastern Queensland, Australia. Fluxes were measured over the entire 2009/2010 cotton growing season with a fully automated chamber system that measured emissions on a sub-daily basis. Irrigation intensity had a significant effect on CO2 emission. More frequent irrigation stimulated soil respiration and seasonal CO2 fluxes ranged from 2.7 to 4.1 Mg-C ha−1 for the treatments with the lowest and highest irrigation frequency, respectively. N2O emission happened episodic with highest emissions when heavy rainfall or irrigation coincided with elevated soil mineral N levels and seasonal emissions ranged from 0.80 to 1.07 kg N2O-N ha−1 for the different treatments. Emission factors (EF = proportion of N fertilizer emitted as N2O) over the cotton cropping season, uncorrected for background emissions, ranged from 0.40 to 0.53 % of total N applied for the different treatments. There was no significant effect of the different irrigation treatments on soil N2O fluxes because highest emission happened in all treatments following heavy rainfall caused by a series of summer thunderstorms which overrode the effect of the irrigation treatment. However, higher irrigation intensity increased the cotton yield and therefore reduced the N2O intensity (N2O emission per lint yield) of this cropping system. Our data suggest that there is only limited scope to reduce absolute N2O emissions by different irrigation intensities in irrigated cotton systems with summer dominated rainfall. However, the significant impact of the irrigation treatments on the N2O intensity clearly shows that irrigation can easily be used to optimize the N2O intensity of such a system.