Characteristics of three cotton varieties and their impact on feeding and growth of cotton armyworm

This study investigated morphological and biochemical characteristics of CB9, CB10 and SR05 cotton varieties and observed their effect on feeding and growth of cotton armyworm Spodoptera litura. Morphological characters of plant architecture, branching, color, hairiness, trichome density and boll size indicated that CB9 is a bushy, well developed, branched, light bronze colored and hairy variety with number of trichomes 193/cm² and boll weight 5.5–6.0 g/boll. Both CB9 and CB10 bear normal leaves and spherical bolls whereas SR05 has well‐ventilated branching, okra shaped and ventrally arranged light bronze colored leaves and oval bolls ranging 4.0–4.5 g/boll. Biochemical analysis indicated significant differences in starch and protein contents, which range 11.4–21.3 and 17.5–30.6%, respectively. The lowest percentages of starch and protein were found in SR05 and CB9, respectively. Cotton varieties showed significant effects on second, third, fourth and fifth instar larval weight and they attained the highest weights (22.7, 133.8, 168.2 and 1190.2 mg, respectively) when fed SR05. Larvae and moths fed SR05 also showed the significantly highest cocoon, exuviae, and adult male and female weights (434.5, 19.2, 161.3 and 232.4 mg, respectively). The cotton armyworm showed the significantly highest growth index (1.5) as well as lowest feeding index (0.05) on SR05. Results of this study indicated that SR05 is suitable for larval feeding and development, and suggest that this variety is least suitable for cotton growers in areas where S. litura is a major pest.     

Foraging and growth responses of cotton armyworm Spodoptera litura to the biophysical characteristics of five cotton varieties

This study investigated the morphological and biochemical characteristics of the CB1, CB3, CB5, CB8 and CB12 cotton varieties and evaluated their effects on third instar larval movement, and body weight of the cotton armyworm Spodoptera litura at different developmental stages. The cotton varieties differed in their plant architecture, branching, stem color and hairiness, leaf color and hairiness, leaf trichome density, flower color, numbers of leaves and bolls per plant, concentrations of protein and starch, and boll length, width and weight. The CB1 and CB3 varieties possessed significantly higher trichome densities, while CB8 produced larger and heavier bolls. Boll bearing was found to be highest in CB1 and lowest in CB8. Biochemical analyses indicated the highest percentage of protein in CB5, and of starch in CB8; concentrations of both were lowest in CB12. Cotton varieties did not affect larval foraging, but their abundance on leaflet, mature and square differed significantly. Analysis of the growth response parameters of S. litura as a result of feeding on the tested varieties revealed that larval instars, pupae and adult moths attained the highest body weight on CB8, followed by CB5, and the lowest weight on CB12. Collectively, the results of this study show that the CB5 and CB8 varieties are favorable host‐plants for cotton armyworms; therefore, these varieties are the least suitable for cultivation.     

Infectious clones of cotton leafroll dwarf virus strains used for genotype evaluation in cotton

Cotton blue disease (CBD) and atypical-CBD are the most important viral diseases of cotton plants in the southern region of South America. Common and atypical strains of cotton leafroll dwarf virus (CLRDV and CLRDV-at, respectively) are thought to be causative agents of CBD and atypical-CBD, respectively. Inoculation of test plants via aphid vectors is difficult, as is determining strains via molecular diagnosis; accordingly, it is difficult for breeders to evaluate the effects of blue disease-associated virus infections in cotton lineages. In the present study, we attempted to circumvent these difficulties by producing six full-length cDNA infectious clones from CLRDV and CLRDV-at strains using the Gibson Assembly protocol. For inoculation of the infectious clones, a vacuum chamber-mediated agroinfiltration protocol was adapted and applied. Using this protocol, 90%–100% of cotton plants became infected with the clones, which was not possible via syringe-based agroinfiltration. A genotyping protocol based on RT-qPCR targeting a specific region of the virus P0 protein was also developed, allowing rapid differentiation of CLRDV and CLRDV-at. Applying this protocol to 68 field samples revealed that CLRDV-at was dominant (50%) over CLRDV (5.8%) in single virus infections. These preliminary results imply that CLRDV-at might occupy the ecological niche of CLRDV in the cotton fields of Brazil.     

Prediction of cotton leaf curl virus disease and its management through resistant germplasm and bio-products

Cotton leaf curl virus disease reduces the cotton yield significantly every year and is transmitted by Bemisia tabaci. The study was designed to evaluate 15 varieties/lines against the disease. Multiple regression analysis was performed based on a-biotic environmental variables (maximum air temperature, minimum air temperature, relative humidity and rainfall) to predict disease incidence and its vector (Bemisia tabaci). Two bio-products were evaluated against the whitefly population to control the disease. Out of 15 cotton varieties/lines, no one was found highly resistant against the disease. Five varieties/lines (BT BT-980, BT-457, KIRAN, BT-666 and SLH-BT-6) exhibited moderately resistant response. Maximum air temperature (34–35.5 °C), minimum temperature (25.75–26.25 °C), relative humidity (64.14–66%), rainfall (1–2 mm) and wind speed (5.50–5.75 Kmh^?1) favoured the disease development. Maximum whitefly population was favoured by maximum air temperature from 34–35.5 °C, 25.8–26.2 °C minimum air temperature, 64.14–66% relative humidity, 1–2 mm from rainfall and 5.50–5.75 Kmh^?1 wind speed. Datura stramonium was found more effective as compared to Aviara (Homoeopathic) but not from the positive control (Acetamiprid).     

Disease forecasting model for newly emerging bacterial seed and boll rot of cotton disease and its vector (Dysdercus cingulatus)

Bacterial seed and boll rot disease is a newly emerging threat to the cotton growers. Disease prediction model was devised to predict the disease progression impacted by the vector (Dysdercus cingulatus) and environmental variables (maximum air temperature, minimum air temperature, relative humidity and rainfall) on four varieties to minimise its losses and disease management cost. Impact of a-biotic environmental variables (maximum and minimum air temperature, relative humidity and rainfall) was assessed on bacterial seed and rot of cotton disease and its vector (D. cingulatus) on FH-941, FH-942, MNH-886 and FH-114 cotton varieties. Maximum red cotton bug population was assessed at 29–31 °C maximum temperature and at 15–17 °C minimum temperature. Disease severity was noticed maximum when maximum and minimum temperature was measured at 28–29 °C and 13–14.5 °C, respectively. Vector population was maximum when relative humidity and rainfall were 63–66% and 1.50–2.5 mm, respectively. Relative humidity at 66–68% and 0.5–1.5 mm rainfall favoured disease development. With increase in number of bugs, increase in disease severity was noted, maximum disease severity 45–48% noticed when 7–8 bugs were recorded. Red cotton bug (Dysdercus cingulatus) population prediction model was devised based on a-biotic factors (maximum and minimum air temperature, relative humidity and rainfall) on four cotton varieties. Disease forecasting model was developed based on biotic (D. cingulatus) and a-biotic factors. A close resemblance between observed and the predicted red cotton bugs and disease severity was seen.     

Diversity of Boll Weevil Populations in South America: A Phylogeographic Approach

A phylogeographic approach was conducted to assess the geographic structure and genetic variation in populations of the boll weevil Anthonomus grandis, which is the most harmful insect pest of cotton in the Americas. COI and COII mitochondrial gene sequences were analyzed to test a former hypothesis on the origin of the boll weevil in Argentina, Brazil and Paraguay, using samples from Mexico and USA as putative source populations. The analysis of variability suggests that populations from South American cotton fields and nearby disturbed areas form a phylogroup with a central haplotype herein called A, which is the most common and widespread in USA and South America. The population from Texas has the A haplotype as the most frequent and gathers in the same group as the South American populations associated with cotton. The sample from Tecomán (México) shows high values of within-nucleotide divergence, shares no haplotype in common with the South American samples, and forms a phylogroup separated by several mutational steps. The sample from Iguazú National Park (Misiones Province, Argentina) has similar characteristics, with highly divergent haplotypes forming a phylogroup closer to the samples from cotton fields, than to the Mexican group. We propose that in South America there are: populations with characteristics of recent invaders, which would be remnants of “bottlenecks” that occurred after single or multiple colonization events, probably from the United States, and ancient populations associated with native forests, partially isolated by events of historical fragmentation.     

Reducing boll weevil populations by clipping terminal buds and removing abscised fruiting bodies

Cotton pests damaging fruiting bodies (squares and young bolls) are difficult to control and their damage results in direct yield loss. Small growers, with low technological inputs, represent a large portion of cotton growers worldwide comprising more than 76 countries; they rely mainly on cultural practices to counteract pest attack in their crops. Boll weevil, Anthonomus grandis Boheman (Coleoptera: Curculionidae), oviposition involves puncturing cotton squares and young bolls, causing abscission. We examined the impact on boll weevil population of collecting abscised cotton fruiting bodies and clipping plant terminals at 50% boll maturation in the field during two cotton‐growing seasons and under field cage conditions. Greatest numbers of damaged squares occurred ca. 117 days after planting and clipped plants resulted in reduction of abscised structures and adult boll weevils compared with non‐clipped plants, irrespective of cotton variety. Damaged young bolls were found ca. 128 days after planting in 2009 and 2011, but clipping had no effect. Numbers of boll weevils found in plants of the varieties BRS 201 and BRS Rubi (both in 2009) and BRS Rubi (in 2011) were, respectively, 13‐, 17‐, and 20‐fold greater when clipping plus collecting abscised fruiting bodies were not practiced. Furthermore, the average percentage of the boll weevil parasitoid Bracon vulgaris Ashmead (Hymenoptera: Braconidae) emerging from abscised and collected structures was similar between clipped and non‐clipped plant terminals in both seasons. Clipping plant terminals did not result in yield reduction and reduced adult boll weevil production. Collecting abscised reproductive structures, clipping plant terminals, and using both practices together reduced boll weevil populations by as much as 63, 57, and 79%, respectively, in cage trials. Thus, these practices cause significant impact on boll weevil populations and are feasible of adoption, especially for smallholder cotton growers.     

Pathogenic aspects of Pantoea agglomerans in relation to cotton boll age and Dysdercus cingulatus (Fabricius) transmitting seed and boll rot in cotton germplasm

Bacterial seed and boll rot is a newly emerging cotton disease in Pakistan. Twenty-one cotton varieties were screened to find resistance source against the disease. None of these was found to be resistant. Five cotton varieties (CIM-595, MK2, BT-986, BT-986 & SG-1) having 700–1400 Area under disease progress curve (AUDPC) units were found to be moderately resistant to the disease. SLH-317, FH-942, BT-222, BT-666, MNH-457 ranging from 1401–1700 AUDPC units were moderately susceptible while MNH-456, SLH-336, 9811, FH-942, MNH-886 susceptible to boll rot. Seven varieties (FH-114, FH-113, BT-7, BT-212, SLH-BT-4, BT-212 and FH-941) were highly susceptible to bacterial seed and boll rot indicated by 2001–2300 AUDPC units. Biochemical tests identified bacterial isolates as Pantoea agglomerans. Different inoculation techniques were assessed for bacterial pathogenicity and symptoms of boll rot were only observed in needle punctured bolls. One, two and three weeks old bolls were mechanically inoculated by injecting bacterial suspension to evaluate the boll’s age impact on disease severity. Maximum severity was observed in two weeks old bolls. Red cotton bugs (Dysdercus cingulatus) were fed on artificially inoculated diseased bolls and then transferred on healthy bolls. Diseased symptoms were noticed on healthy cotton bolls. Bacterial colonies were recovered and red cotton bug was confirmed as the disease-transmitting vector.     

棉铃虫的取食营养特点与棉花抗虫素分布的关系

通过研究棉花8个部位对棉铃虫Helicoverpa armzgera的营养效果和其所含次生物质类萜烯和单宁的浓度及在组织中的分布,揭示了棉铃虫取食营养特点与棉花次生化学的关系。棉铃虫取食顶尖、转移蛀食蕾铃的习性,与有关器官或组织对幼虫的营养效果密切相关,而营养效果主要取决于类萜烯和单宁的含量。棉花顶尖嫩叶中单宁浓度随着棉花的生长发育呈升高的趋势;类萜烯浓度在第四真叶期、第六真叶期和现蕾初期之间出现一个明显的底谷,而此期幼虫主要为害顶尖。蕾铃外层的苞叶、花萼、花瓣和铃皮,因次生物质含量高,不利于幼虫生长,相反内部的花粉、子房和铃心,次生物质含量低,营养效果好,顶尖嫩叶则介于其间。类萜烯存在于组织的色素腺内,分布集中;单宁则散布于组织中,偏多分布于组织外层。结果证实,昆虫在寄主植物上的取食方式是昆虫对寄主体内变动的次生化学的一种适应,它使昆虫付出尽少代价获得最适营养效果。     

Efficient genotype-independent cotton genetic transformation and genome editing

Cotton(Gossypium spp.) is one of the most important fiber crops worldwide. In the last two decades, transgenesis and genome editing have played important roles in cotton improvement. However,genotype dependence is one of the key bottlenecks in generating transgenic and gene-edited cotton plants through either particle bombardment or Agrobacterium-mediated transformation. Here, we developed a shoot apical meristem(SAM) cell-mediated transformation system(SAMT) that allowed the transformation of r...     

Evaluation of Pseudomonas aeruginosa Z5 for biocontrol of cotton seedling disease caused by Fusarium oxysporum

Plant growth-promoting bacteria-mediated biocontrol of plant pathogens is renowned to enhance the growth of the plants using different direct or indirect mechanisms. The goal of the present investigation was the evaluation of Pseudomonas aeruginosa Z5 isolated from cotton grown in Pakistani soils for the suppression of Fusarium oxysporum associated with cotton seedling disease. In dual culturing techniques, four bacterial strains inhibited fungal pathogens, i.e. F. oxysporum, Fusarium moniliforme, Fusarium solani and Rhizoctonia solani, significantly with percent inhibition ranging from 25% to 91.5%. P. aeruginosa Z5 showed maximum suppression of all the tested pathogens. Net-house experiments showed that the application of P. aeruginosa Z5 both separately and in combination with Bacillus fusiformis S10 significantly reduced the disease incidence by suppressing F. oxysporum (the causal agent of cotton seedling disease) up to 64–65% and improved the percent germination as compared to the infected control plants. The production of antibiotics, proteases and siderophores may be the contributing factors for its antagonistic properties. Highest bacterial population (8.9 CFU/g root) observed on roots of cotton plants inoculated with P. aeruginosa Z5 showed its good colonisation aptitudes even in the presence of high inoculation of soil with F. oxysporum. Confocal laser scanning microscopy supported the root colonisation of cotton plants with fluorescently labelled P. aeruginosa Z5. Because of innate fungicidal potential, growth promoting P. aeruginosa Z5 can be used as a bioinoculant and an antagonist to suppress the growth of cotton root-associated fungal pathogen.     

转大肠杆菌过氧化氢酶基因棉花的抗旱生理研究

以导入大肠杆菌过氧化氢酶基因KatE的T3代转基因棉花为供试材料,经卡那霉素检测和PCR鉴定,将筛选出的阳性转基因植株与对照棉花进行整个生育期的持续水分胁迫处理直至收获,比较材料间的生理生化指标的差异,鉴定转基因植株的耐旱能力。结果显示:(1)干旱胁迫持续至初蕾期时,转基因棉花与对照植株间各项抗旱生理指标差异均未达到显著水平。(2)水分胁迫持续至盛蕾和盛花期时,转基因棉花叶片相对含水量、光系统Ⅱ最大光化学效率(Fv/Fm)、CAT活性,以及叶片的净光合速率(Pn)、气孔导度(Gs)和蒸腾速率(Tr)均显著或极显著高于对照植株,叶绿素含量也都明显高于对照植株。干旱胁迫持续至吐絮期时,转基因棉花的株高、果枝数和铃数均显著或极显著高于对照植株,且转基因棉花和对照的籽棉产量分别比正常灌溉处理降低57.5%和60.1%,全生育期的水分胁迫严重影响了棉花籽棉产量,但转基因棉花的籽棉产量仍显著高于对照。研究表明,在新疆石河子当地自然降水(干旱胁迫)条件下,转KatE基因棉花表现出了较好的生理和生长优势,KatE基因有助于提高棉花的抗旱性。     

Evaluation of Gossypium species for resistance to cotton leaf curl Burewala virus

Cotton leaf curl disease (CLCuD), caused by cotton leaf curl Burewala virus (CLCuBV), has emerged as a major threat to cotton production in Pakistan. Resistance to CLCuBV was evaluated in cultivated and wild cotton genotypes representing six Gossypium species by visual symptom scoring and virus assessment using PCR tests. Considerable variation in responses was observed when using whitefly and graft transmission to inoculate Gossypium genotypes with CLCuBV in field and greenhouse experiments. Under field evaluation, all cultivated genotypes of Gossypium hirsutum and three genotypes of G. barbadense were susceptible. Eleven genotypes that represented six wild and cultivated Gossypium species were considered to be highly resistant as they were free from infection. Similar results were obtained when these genotypes were tested using whitefly transmission. To verify these findings, 132 cultivated and wild genotypes were tested by graft inoculation. All G. hirsutum genotypes (116 cultivated, 1 wild, 1 transgenic Coker-312 and 1 non-transgenic Coker-312), three G. barbadense genotypes and one G. thurberi genotype were highly susceptible and exhibited symptoms 9–12 days after grafting. Four genotypes of G. arboreum and one genotype of G. anomalum did not express symptoms but had a detectable level of virus. One genotype of G. herbaceum and three wild genotypes of G. hirsutum showed mild symptoms (severity indexes of 1–2) and exhibited delayed disease development. These genotypes were classified as moderately resistant to resistant. Resistant genotypes that were identified in this study will be useful sources for exploitation of breeding programmes aimed at developing CLCuBV-resistant varieties and increasing genetic diversity.     

Fungi associated with boll and lint rot of cotton in Southern Khorasan province of Iran

During surveys of cotton fields since 2009 in the Southern Khorasan province of Iran, symptomatic samples with lint and boll rot disease signs were collected and cultured on potato dextrose, malt extract agar and PARPH media. Several fungal isolates were obtained and identified. Among them, we found Penicillium expansum which to our knowledge is reported as a new pathogen of cotton worldwide; Fusarium semitectum and Nigrospora oryzae (associated to mite Siteroptes sp.) were also recorded as lint or boll rot pathogens for the first time from Iran. Disease symptoms and fungal characteristics of Exserohilum rostratum, which has been reported briefly as a new causal agent of boll and lint rot disease, are illustrated and presented. In addition, Aspergillus niger and Rhizopus spp. were also isolated frequently from lint parts of cotton prior to harvesting. There was a positive correlation between disease occurrence and spiny cotton bollworm damage. The pathogenicity test was characterised by inoculating the attached and detached bolls of cotton plants.     

A review on biological interactions and management of the cotton bollworm,Helicoverpa armigera (Lepidoptera: Noctuidae)

Helicoverpa armigera Hübner (Lepidoptera: Noctuidae) is one of the most damaging insect pests globally, causing estimated global economic losses of over 3 billion US dollars annually. Crops most affected include cotton, tomato, soybean, grain crops such as corn and sorghum, chickpea and other pulses. Adults of this species possess strong migratory abilities (>2000 km), high fecundity and rapid reproductive rates; completing 4–6 generations per year in most cropping regions. Furthermore, the larvae are polyphagous, with a wide and diverse host range and possess the ability to enter diapause in order to survive adverse climatic conditions. At present, it is distributed across most of Oceania, Asia, Africa and southern Europe and has recently spread to South America. Various control measures have been trialled or proposed for the treatment of this pest, including synthetic insecticides, phytopesticides, microbial pesticides, macro-biocontrol agents (both parasitoids and predators) and the development of genetically modified crops (e.g. Bt cotton). Successful control necessitates the use of an integrated pest management (IPM) approach, wherein biological, chemical and physical control measures are combined for the greatest control efficacy.     

Effects of cotton cultivars differing in gossypol content on the quality of Aphis gossypii as prey for two species of Coccinellidae

Plants can have detrimental effects on biological control agents by affecting their prey or host quality. Thus, it is important to understand the tri-trophic interactions between plants, herbivores and natural enemies when implementing biological control programmes. Studies have shown that both morphological and chemical traits of host plants can affect the third trophic level. Cotton plants are known to produce alkaloids such as gossypol, a sesquiterpene aldehyde that can confer resistance against herbivorous arthropods. Nevertheless, little is known about the effect of gossypol on biological control agents. In this study, we investigated how three cotton cultivars (BRS Rubi, BRS Safira and BRS Verde) differing in gossypol content affect development and growth of predatory coccinellids, Eriopis connexa and Harmonia axyridis, feeding on the cotton aphid Aphis gossypii reared on those cultivars. The results show that the cultivar BRS Rubi (highest gossypol content) had a sub-lethal effect on the development and growth of both Coccinellidae species compared with the other cultivars. Overall, the cultivar BRS Rubi reduced slightly fecundity, net reproductive rate and intrinsic rate of natural increase for both Coccinellidae species. However, because aphid populations stay short periods of time in the field, and adult coccinellids may supplement its diet with alternative prey and plant material this sub-lethal indirect effect of gossypol may not have a detrimental effect on field biological control of cotton aphid by either E. connexa or H. axyridis, thus suggesting a compatibility between plant resistance and biological control agents.     

转ACO2基因优质棉生长特性及其对田间昆虫群落的影响

新型转基因棉花的生长特性及其对棉田昆虫群落的影响是转基因棉花环境安全评价的重点内容,也是转基因棉花环境安全评价过程必须评价的内容。选用新型转ACO2基因棉花及其亲本中棉所24为试验材料,于2013年和2014年在河南安阳进行了田间棉花生长势及其对昆虫群落影响的试验。在棉花苗期、蕾期、花铃期和铃期,转基因棉花叶片干重与其亲本均无显著差异,苗期、蕾期叶面积和比叶面积与亲本无显著差异,花铃期、铃期叶面积与比叶面积均显著高于亲本材料,其中2013年分别比对照高27.1%和26.2%,2014年分别高16.0%和19.9%,差异均达显著水平;株高、主茎叶片数、大铃数、小铃数和蕾铃脱落数均与亲本材料相当,但铃期果枝数显著高于亲本材料;3个棉铃虫(Helicoverpa armigera Hubner)发生高峰期,转优质基因棉花对棉铃虫和甜菜夜蛾幼虫校正死亡率与亲本对照材料无显著差异;昆虫群落、害虫亚群落和天敌亚群落昆虫个体总数均显著高于亲本棉田,两年分别比对照高11.5%、10.5%、33.4%和12.0%、8.1%、63.1%,其中2013年差异达显著水平,2014年由于昆虫发生程度总体较轻,差异不显著,但所属"目"、"科"、"种’、生物多样性指数、优势种昆虫及其优势度与其亲本棉田无显著差异,表明外源基因ACO2导入后,对棉田昆虫发生及其群落结构没有影响,棉花生长势无明显优势,但产量构成性状在部分时期增强。上述研究初步明确了新型转基因棉花生存竞争势态和棉田昆虫群落发生规律与动态,可为新型转基因棉花环境安全评价提供理论依据,同时为转基因棉花环境安全评价积累科学数据。     

Assessment of resurgence of bacterial blight and its effect on cotton yield in northern Nigeria

Abstract

Cotton production in Nigeria causes fluctuating socio-economic and biotic factors. Bacterial blight induced by Xanthomonas campestris pv malvacearum causes the greatest yield loss annually. A study was therefore carried out to investigate the resurgence of the disease on 10 different cotton genotypes in Dowaya, Kem and Ngurore which are the major cotton areas of Adamawa state of Nigeria under field conditions. Other objectives were to determine the relationship between the different manifestations of bacterial blight and the yield of seed cotton and to identify resistance in the selected genotypes to the disease manifestations. Results revealed the presence of angular leaf spot, vein and boll rot manifestations of the disease in the study areas. The absence of vein blight symptoms in the Kem location did not result in higher yield because the severity of the leaf spot for this location was relatively higher than for the other two locations. Results also revealed that despite the high severity of angular leaf spot, high boll rot and vein blight incidences observed particularly on SAMCOT-11, SAMCOT-13 and ex-Benin in these locations with a high yield of seed cotton was recorded. The three multi-adversity resistant genotypes (MAR), TX-CDP37HH-1-83, TAMCOT SP-21S and TAMCOT CAMD-E recorded relatively lower severity and incidences in both cases. There was, however, a significantly negative correlation between angular leaf spot severity, boll rot incidence and yield at Kem location, significant negative correlation between angular leaf spot severity, boll rot incidence, vein blight and yield at Dowaya location, as well as significant negative correlation between angular leaf spot severity, vein blight and yield at Ngurore location. The tolerant and high yielding SAMCOT-11, SAMCOT-13 and ex-Benin should through breeding work be improved to be used for production in this area and its surroundings.     

转基因抗草甘膦棉栽培地生存竞争能力

【目的】针对我国研发的具有自主知识产权的转EPSPS基因抗除草剂棉花,研究其环境适应和生存竞争能力,以评价其环境安全性,为其生产应用提供依据。【方法】试验在河南安阳中国农业科学院棉花研究所试验农场中进行。以转基因(EPSPS)抗草甘膦棉为试验品种,受体材料和中棉所49为对照品种,在正常管理模式下,对棉花的营养生长、生殖生长、产量因子及纤维品质等指标进行比较。【结果】转基因抗草甘膦棉花在苗期、现蕾期、花铃期和吐絮期的株高均低于受体材料,但差异不显著;花铃期,转基因抗草甘膦棉花每株花蕾数比受体材料少3.58个,差异达到显著水平;但在吐絮期其单株铃数比受体材料多1.1个,且其产量比受体材料高91.4 kg·hm~(-2);转基因抗草甘膦棉花的纤维品质也有一定程度的改善。同时,转基因抗草甘膦棉花上述各项生长指标、产量及纤维品质等均与对照品种中棉所49相当。【结论】转基因抗草甘膦棉花在栽培地环境下可正常生长,未对农业生产造成明显的负面影响和风险。     

施氮方式对转基因棉花Bt蛋白含量及产量的影响

为研究氮肥运筹对棉花叶片、棉蕾和棉铃不同器官中Bt蛋白含量的影响,2009—2010年,以抗虫杂交棉中棉所72为试验材料,在大田条件下进行了不同基肥：花铃肥：盖顶肥施氮比例（分别为0:0.4:0.6、0.2:0.4:0.4、0.4:0.4:0.2、0.6:0.4:0）的试验。结果表明,施氮方式对棉花不同器官中Bt蛋白含量有明显影响。总体表现为随着氮肥前移,棉花幼嫩器官中Bt蛋白含量呈明显增加的趋势,而老熟器官中Bt蛋白含量呈明显降低的趋势。施氮方式对棉花幼嫩器官中Bt蛋白含量的影响比老熟器官明显,尤其是对幼嫩叶片Bt蛋白含量的影响大于幼小的棉蕾和棉铃器官。抗虫棉采用基肥：花铃肥：盖顶肥为0.4:0.4:0.2的施氮方式,总体能提高前中期棉花器官Bt蛋白的含量,有利于提高其抗虫性能;减少后期棉花器官Bt蛋白的含量,减轻对环境的压力;而且比其余3种施氮方式的籽棉产量和皮棉产量分别增加4.15%—11.24％、3.73%—12.01%。