Use of Physiological Indices as a Screening Technique for Drought Tolerance in OilseedBrassicaSpecies

Plants of 24 genotypes of fourBrassicaspecies (B. campestris,B.carinata,B. juncea,B. napus) were grown on stored soil waterin a sandy loam soil under field conditions. Water use was recordedthroughout the growing season. Leaf water potential (     

谷子孕穗期抗旱指标筛选

为研究谷子孕穗期在干旱环境的形态、生理、生化性状变化趋势,筛选谷子孕穗期抗旱性鉴定指标,以20个谷子品种为试验材料,在模拟干旱棚中分析了谷子孕穗期干旱胁迫条件下形态和生理、生化指标的变化。试验表明:单穗重、单穗粒重、株高、穗下茎长、千粒重与抗旱指数的相关性显著,可作为孕穗期抗旱性的形态指标;叶绿素含量、可溶性糖、丙二醛含量和超氧化岐化酶活性(SOD)4个指标与抗旱指数的相关性显著,可作为孕穗期的生理、生化指标。通过主成分分析确立了千粒重、单穗重、叶绿素和SOD等4个指标的相对值为谷子孕穗期抗旱性综合指标,以抗旱指数为因变量,4个综合指数为自变量建立的回归方程对供试品种的抗旱性进行预测具有高的准确性。     

华南地区22种园林植物耐旱性分级筛选

以华南地区22种常见园林植物为研究对象，研究人工模拟干旱胁迫环境对植物叶片叶绿素、丙二醛、过氧化物酶、相对电导率等生理指标的影响，通过主成分分析、聚类分析对22种植物耐旱性进行综合分析评价和耐旱等级划分。结果表明：(1) 在干旱梯度胁迫期间，植物叶片的叶绿素含量总体上呈不同程度的下降趋势，少数呈上升趋势，丙二醛含量和相对电导率均呈不同程度的上升趋势，多数植物过氧化物酶活性呈不同程度先升后降趋势，少数呈持续上升趋势。(2) 22种植物耐旱性分为3个等级：A级强耐旱植物4种，包括灰莉(Fagraea ceilanica)、鸭脚木(Schefflera octophylla)、桂花(Osmanthus fragrans var. fragrans)、鸢尾(Iris tectorum)；B级中耐旱植物6种，包括翠芦莉(Ruellia simplex)、栀子花(Gardenia jasminoides)、变叶木(Codiaeum variegatum)、红车(Syzygium hancei)、红背桂(Excoecaria cochinchinen)、茉莉花(Jasminum sambac)；C级不耐旱植物12种，包括福建茶(Carmona microphylla)、米仔兰(Aglaia odorata)、大红花(Hibiscus rosa-sinensis)、琴叶珊瑚(Jatropha integerrima)、龙船花(Ixora chinensis)、黄蝉(Allamanda schottii)、假连翘(Duranta erecta)、红檵木(Loropetalum chinense var. rubrum)、紫薇(Lagerstroemia indica)、风车草(Cyperus involucratus)、小花月季(Rosa chinensis var. minim)、铜钱草(Hydrocotyle chinensis)。     

Genotypic Variation for Drought Tolerance in Beta vulgaris

Insufficient soil moisture during summer months is now the majorcause of sugar beet yield losses in the UK. However, selectionfor increased drought tolerance has not been a breeding priorityuntil recently. Genetic variation for drought tolerance is anessential prerequisite for the development of more stress-tolerantvarieties, but commercial sugar beet varieties seem to havesimilar yield responses to drought. The objective of this studywas to assess the degree of genotypic variation for droughttolerance within a wide range of sugar beet germplasm and genebankaccessions within Beta. Thirty sugar beet genotypes were screenedunder field drought conditions, and putative drought tolerantand sensitive lines (in terms of yield reduction in polythene-coveredvs. irrigated plots) were identified. Significant genotype xwater treatment interactions were found for dry matter yieldand relative leaf expansion rate. Genotypic differences fordrought susceptibility index were also significant. Differentialsensitivity of seedling shoot growth to water deficit was examinedby comparing 350 genebank accessions in a simple growth chamberscreen. Methods of data management were devised to highlightlines for entry into subsequent field tests. The results ofthe field and seedling screens indicate that there is variationfor tolerance to water deficits within sugar beet and relatedtypes, and that there are lines that show greater drought tolerancethan selected commercial varieties. Divergent lines showingcontrasting behaviour should aid in the identification of keymorpho-physiological traits that confer drought tolerance.     

Polyphenols as Potential Indicators for Drought Tolerance in Tea (Camellia sinensis L.)

Plant polyphenols have gained prominence in quality of plant products and in human health. An experiment was conducted to determine the association of tea polyphenols with water stress and their suitability as indicators for drought tolerance. The experiment was conducted in a ‘rain-out’ shelter, and consisted of six tea clones (BBK 35, TRFK 6/8, TRFK 76/1, TRFK 395/2, TRFK 31/30, and TRFK 311/287) and four levels of soil water contents (38, 30, 22, and 14% v/v), which were maintained for a period of 12 weeks. The treatments were arranged in a completely randomized design and replicated three times. Plant growth was monitored over 6 weeks, and a water stress index was calculated to determine water-stress tolerant clones. Total polyphenols in tea shoots was analyzed and a regression analysis done. The results indicate that declining soil water content (SWC) reduced both growth and content of polyphenols in tea. Tolerant clones maintained a high polyphenol content at low SWC, and also showed less fluctuation in phenolics when subjected to changes in SWC. There was significant (P<0.001) correlation of total polyphenol content with shoot growth and WSI of tea, and a linear relationship (r²=0.97) between SWC for tea and both, water stress index and shoot polyphenol content. We report that there is a potential to use polyphenols as indicators for selection of drought-tolerant tea cultivars.     

Drought and Salt Tolerance in Plants

Agricultural productivity worldwide is subject to increasing environmental constraints, particularly to drought and salinity due to their high magnitude of impact and wide distribution. Traditional breeding programs trying to improve abiotic stress tolerance have had some success, but are limited by the multigenic nature of the trait. Tolerant plants such as Craterostigma plantagenium, Mesembryanthemum crystallinum, Thellungiella halophila and other hardy plants could be valuable tools to dissect the extreme tolerance nature. In the last decade, Arabidopsis thaliana, a genetic model plant, has been extensively used for unravelling the molecular basis of stress tolerance. Arabidopsis also proved to be extremely important for assessing functions for individual stress-associated genes due to the availability of knock-out mutants and its amenability for genetic transformation. In this review, the responses of plants to salt and water stress are described, the regulatory circuits which allow plants to cope with stress are presented, and how the present knowledge can be applied to obtain tolerant plants is discussed.     

Chlorophyll Fluorescence as a Possible Tool for Salinity Tolerance Screening in Barley (Hordeum vulgare L.)

The application of chlorophyll fluorescence measurements to screening barley (Hordeum vulgare L.) genotypes for salinity tolerance has been investigated. Excised barley leaves were cut under water and incubated with the cut end immersed in water or in a 100-mM NaCl solution, either in the dark or in high light. Changes in rapid fluorescence kinetics occurred in excised barley leaves exposed to the saline solution only when the incubation was carried out in the presence of high light. Fluorescence changes consisted of decreases in the variable to maximum fluorescence ratio and in increases in the relative proportion of variable fluorescence leading to point I in the Kautsky fluorescence induction curve. These relative increases in fluorescence at point I appeared to arise from a delayed plastoquinone reoxidation in the dark, since they disappeared after short, far-red illumination, which is known to excite photosystem I preferentially. We show that a significant correlation existed between some fluorescence parameters, measured after a combined salt and high-light treatment, and other independent measurements of salinity tolerance. These results suggest that chlorophyll fluorescence, and especially the relative fluorescence at point I in the Kautsky fluorescence induction curve, could be used for the screening of barley genotypes for salinity tolerance.     

Emerging Molecular Strategies for Improving Rice Drought Tolerance

Rice occupies a pre-eminent position as a food crop in the world. Its production, how- ever, entails up to 3000 liters of water per kilogram of grain produced. Such high demand makes rice prone to drought easily. Sustainable rice cultivation with limited water resources requires the deployment of a suitable strategy for better water use efficiency and improved drought tolerance. Several drought-related genes have been evaluated in rice for their mode of action in conferring drought tolerance. Manipulation of components of abscisic acid signal transduction, stomatal density, deposition of cuticular wax, and protein modification pathways are emerging as priority targets. Gene reprogramming by microRNAs is also being explored to achieve drought tolerance. Genetically dissected Quantitative Trait Loci (QTLs) and their constituent genes are being deployed to develop drought-tolerant rice varieties. Progressive research and challenges include a better understanding of crucial components of drought response and search for new targets and the deployment of improved varieties in the field.     

作物耐旱性QTL定位和分析的思路

干旱是非生物胁迫中对作物生长和产量影响最严重的胁迫之一.作物的耐旱性受数量性状位点(QTL)的控制,存在复杂的基因/QTL互作和与环境的互作.对作物耐旱相关性状QTL进行定位和分析是耐旱研究的重点之一.本文通过对目前研究中涉及到的作物耐旱性特点、耐旱QTL分析的技术路线与新方法,表型鉴定以及耐旱性QTL互作分析等方面进行了比较系统的阐述,旨在为作物耐旱性QTL定位及未来的分子标记辅助选择提供有益的借鉴.     

30份普通菜豆苗期抗旱性鉴定及抗旱指标的确定

以30份普通菜豆为试验材料,采用PEG6000溶液模拟干旱胁迫处理种子和苗期盆栽自然干旱法,研究了干旱胁迫对种子发芽率、植株地上部鲜重、地下部鲜重、叶片含水量、电导率和叶绿素荧光参数等11个指标的影响,通过隶属函数法和灰色关联分析法对普通菜豆进行抗旱性和抗旱指标综合评定。结果显示,每个抗旱指标在不同材料之间都具有明显差异,说明材料之间存在明显的抗旱差异性;发芽率、地下鲜重、地上鲜重、全株鲜重、电导率和Fv/Fm的关联度均大于0.8,与综合抗旱指数的关系较为紧密,可以作为普通菜豆苗期抗旱性筛选的主要鉴定指标;鉴定出F1863、F2973、F3992和F3057抗旱性较强的普通菜豆。以上结果表明应用多抗旱指标综合分析法能很好地评价材料的抗旱性。     

以杜鹃红山茶为母本的优良种间杂交父本筛选

以杜鹃红山茶(Camellia azalea)为母本,‘绿带可娜’、‘红芙蓉’、‘迪朱丽亚’等13个观赏性较强的山茶花品种为父本,采用常规杂交育种方法,共配置13个杂交组合进行杂交试验。以坐果率、结实率、出苗率、单花成苗率作为评价亲和性的指标对杂交父本进行筛选,利用因子分析法对杂交组合亲和力进行综合评价,并采用形态鉴定法比较杂交子代与父母本主要性状差异。结果表明,‘绿带可娜’、‘玛丽费丝’、‘尼丽夫人’、‘花露珍’、‘娃丽娜深’为亲和性高的父本,杜鹃红山茶ב绿带可娜’、杜鹃红山茶ב玛丽费丝’为杂交亲和性较高的组合。杜鹃红山茶种间杂交后代花色、花型表现趋于父本,叶片更接近于母本杜鹃红山茶,杂交后代均遗传母本全年开花的特性。     

油葵苗期抗旱相关性状的QTL定位及候选基因筛选

干旱是限制向日葵生长发育的重要因素之一。为探究向日葵苗期抗旱性分子机制,该研究以向日葵K55与K58杂交构建的150个F₇重组自交系群体为材料,对其在正常浇水和干旱胁迫两种水分处理条件下的叶片相对电导率、叶绿素含量、叶面积、叶片相对含水量、根长进行表型测定,利用前期建立的SNP、SSR分子标记遗传连锁图谱,通过复合区间作图法对5个抗旱相关的性状进行QTL定位。结果表明：(1)共定位到向日葵QTL位点11个,其中正常浇水条件下5个,干旱胁迫条件下6个,表型贡献率为0.768%~7.547%,且5号连锁群上定位到的QTL位点最多(3个)。(2)QTL置信区间内共筛选到62个与干旱相关的候选基因,包括位于qLA 8 1上的rna23019、rna23004、rna22661、rna22193、rna23294、rna22783和位于qCC 13 1上的rna40140,这些基因可作为后续基因克隆及功能研究的重点候选基因。该研究结果为向日葵抗旱性研究及其遗传改良奠定了基础。     

Overexpression of the Wheat Expansin Gene TaEXPA2 Improved Seed Production and Drought Tolerance in Transgenic Tobacco Plants

Expansins are cell wall proteins that are grouped into two main families, α-expansins and β-expansins, and they are implicated in the control of cell extension via the disruption of hydrogen bonds between cellulose and matrix glucans. TaEXPA2 is an α-expansin gene identified in wheat. Based on putative cis-regulatory elements in the TaEXPA2 promoter sequence and the expression pattern induced when polyethylene glycol (PEG) is used to mimic water stress, we hypothesized that TaEXPA2 is involved in plant drought tolerance and plant development. Through transient expression of 35S::TaEXPA2-GFP in onion epidermal cells, TaEXPA2 was localized to the cell wall. Constitutive expression of TaEXPA2 in tobacco improved seed production by increasing capsule number, not seed size, without having any effect on plant growth patterns. The transgenic tobacco exhibited a significantly greater tolerance to water-deficiency stress than did wild-type (WT) plants. We found that under drought stress, the transgenic plants maintained a better water status. The accumulated content of osmotic adjustment substances, such as proline, in TaEXPA2 transgenic plants was greater than that in WT plants. Transgenic plants also displayed greater antioxidative competence as indicated by their lower malondialdehyde (MDA) content, relative electrical conductivity, and reactive oxygen species (ROS) accumulation than did WT plants. This result suggests that the transgenic plants suffer less damage from ROS under drought conditions. The activities of some antioxidant enzymes as well as expression levels of several genes encoding key antioxidant enzymes were higher in the transgenic plants than in the WT plants under drought stress. Collectively, our results suggest that ectopic expression of the wheat expansin gene TaEXPA2 improves seed production and drought tolerance in transgenic tobacco plants.     

Humic Acid as a Biostimulant in Improving Drought Tolerance in Wheat: the Expression Patterns of Drought-Related Genes

Plant Molecular Biology Reporter - Plants develop a series of physiological, biochemical, and molecular responses to survive in drought stress. Many drought-related genes with various functions...     

Distillation Time as Tool for Improved Antimalarial Activity and Differential Oil Composition of Cumin Seed Oil

A steam distillation extraction kinetics experiment was conducted to estimate essential oil yield, composition, antimalarial, and antioxidant capacity of cumin (Cuminum cyminum L.) seed (fruits). Furthermore, regression models were developed to predict essential oil yield and composition for a given duration of the steam distillation time (DT). Ten DT durations were tested in this study: 5, 7.5, 15, 30, 60, 120, 240, 360, 480, and 600 min. Oil yields increased with an increase in the DT. Maximum oil yield (content, 2.3 g/100 seed), was achieved at 480 min; longer DT did not increase oil yields. The concentrations of the major oil constituents α-pinene (0.14–0.5% concentration range), β-pinene (3.7–10.3% range), γ-cymene (5–7.3% range), γ-terpinene (1.8–7.2% range), cumin aldehyde (50–66% range), α-terpinen-7-al (3.8–16% range), and β-terpinen-7-al (12–20% range) varied as a function of the DT. The concentrations of α-pinene, β-pinene, γ-cymene, γ-terpinene in the oil increased with the increase of the duration of the DT; α-pinene was highest in the oil obtained at 600 min DT, β-pinene and γ-terpinene reached maximum concentrations in the oil at 360 min DT; γ-cymene reached a maximum in the oil at 60 min DT, cumin aldehyde was high in the oils obtained at 5–60 min DT, and low in the oils obtained at 240–600 min DT, α-terpinen-7-al reached maximum in the oils obtained at 480 or 600 min DT, whereas β-terpinen-7-al reached a maximum concentration in the oil at 60 min DT. The yield of individual oil constituents (calculated from the oil yields and the concentration of a given compound at a particular DT) increased and reached a maximum at 480 or 600 min DT. The antimalarial activity of the cumin seed oil obtained during the 0–5 and at 5–7.5 min DT timeframes was twice higher than the antimalarial activity of the oils obtained at the other DT. This study opens the possibility for distinct marketing and utilization for these improved oils. The antioxidant capacity of the oil was highest in the oil obtained at 30 min DT and lowest in the oil from 360 min DT. The Michaelis-Menton and the Power nonlinear regression models developed in this study can be utilized to predict essential oil yield and composition of cumin seed at any given duration of DT and may also be useful to compare previous reports on cumin oil yield and composition. DT can be utilized to obtain cumin seed oil with improved antimalarial activity, improved antioxidant capacity, and with various compositions.     

引进马铃薯种质资源抗旱性评价

马铃薯属于干旱敏感型作物,当前生产上的马铃薯品种多数不耐旱,中国马铃薯抗旱育种进程又受到遗传背景狭窄的制约。引进外来种质资源,拓宽我国马铃薯遗传背景,加快选育抗旱品种是马铃薯应对干旱的关键策略。2016年和2017年,在常规滴灌和雨养条件下,利用增广设计方法,以生产上常用的5个马铃薯品种为对照,对来自国际马铃薯中心的315份高代品系和中国已有的3个品种进行抗旱性评价。通过AMMI模型和GGE模型分析基因型、环境及二者互作对产量的影响,并结合抗旱指数筛选抗旱性稳定且产量高的材料。从整体上看,在雨养条件下,两年马铃薯平均产量差异较小,但是变异系数较大,常规滴灌条件下正好相反。马铃薯产量受基因型、环境及其交互作用的显著影响,其变异平方和分别占总处理平方和的43.39%、39.36%和17.26%;C93和YS902两年的抗旱指数均高于对照品种,稳产性好,C48虽然抗旱指数相对较低,但是高产和稳产性高于所有材料。筛选出来的材料不仅可以作为抗旱育种亲本,还可以通过进一步研究其抗旱机制,为抗旱育种提供理论支持。     

耐旱玉米

1干旱和玉米:问题涉及的范围 玉米是世界上继小麦和水稻之后的第三大重要谷物.玉米的产量在温带的发达地区平均可以达到8.2吨/公顷,在热带欠发达国家为3.5吨/公顷.无论在哪一类产区,干旱都作为最重要的非生物因素制约着玉米的产量,并且使其非常不稳定,同时这也是热带和温带地区的平均产量产生差别的原因之一.这两类地区在耕作季节的水资源缺乏是不可预期的.农田中土壤质地和深度的差别表明植物可利用的水量不同,这会导致在干旱年份中产量相差10倍以上.此外,由于农民通常只在其所有土地上耕种一种作物,这就要求种植于雨养条件下的农作物具有较高水平的耐旱能力.     

Functional Genomics of Drought Tolerance in Bioenergy Crops

With predicted global changes in temperature and precipitation, drought will increasingly impose a challenge to biomass production. Most of the bioenergy crops have some degree of drought susceptibility as revealed for example through measures of low water-use efficiency (WUE). It is imperative to improve drought tolerance and WUE in bioenergy crops for sustainable biomass production in arid and semi-arid regions. Genetics and functional genomics can play critical roles in generating knowledge to inform and aid genetic improvement for drought tolerance in bioenergy crops. The molecular aspects of drought response have been extensively investigated in model plants like Arabidopsis, yet our understanding of the molecular mechanisms underlying drought tolerance in bioenergy crops is limited. Plants in general exhibit various responses to drought stress depending on species and genotype. A rational strategy for studying drought tolerance in bioenergy crops is to translate the knowledge from model plants relative to the unique features associated with individual bioenergy species and genotypes. In this review, we summarize the general knowledge concerning drought responsive pathways, with a focus on the identification of commonality and specialty in drought responsive mechanisms among alternate species and genotypes. We describe the genomic resources developed for bioenergy crops and discuss genetic and epigenetic regulation of drought responses. We also examine comparative and evolutionary genomics as a means to leverage the ever-increasing genomics resources and provide new insights beyond what is known from studies on individual species. Finally, we outline future opportunities for studying drought tolerance using the emerging technologies.