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1.
干旱胁迫是抑制甜菜生长发育和影响产量的重要非生物因素。以耐旱型甜菜种质依安一号(V1)和干旱敏感型种质92011/1-6/1(V2)为试验材料,探讨不同耐旱品种甜菜幼苗光合生理对干旱胁迫的响应。研究了干旱胁迫对甜菜幼苗生长发育、总叶绿素含量和表观光合指标的影响。结果表明,干旱胁迫下2种甜菜幼苗的茎粗、根长、株高、叶鲜重、根鲜重、叶干重和根干重均呈下降趋势,V1下降幅度不明显且各指标降低幅度均小于V2;干旱胁迫降低了2种甜菜幼苗的叶绿素含量,叶绿素含量在第7天降到最低,且V1的含量明显高于V2;干旱胁迫使甜菜幼苗的净光合速率、蒸腾速率、叶片气孔导度和胞间CO2浓度显著下降,V1受到的影响比V2要小。不同耐旱性甜菜品种对干旱胁迫的响应机制存在一定差异,可以进一步分析其抗旱能力,为甜菜的育种、抗逆栽培和稳产提供理论依据。 相似文献
2.
Drought tolerance is one of the most important objectives of sugar beet breeding programs in semi-arid regions, particularly
during the last decade. Due to global climate changes and limitations of agricultural irrigation water, varieties with drought
tolerance are taken into consideration in order to avoid yield losses due to drought. In this study, drought tolerance of
76 S1 lines (full-sib families) that had been extracted from a genetically broad base multigerm sugar beet open pollinated population,
were examined. Test crosses were made between the lines as pollinators and a cytoplasmic male sterile (CMS) single cross.
The consequent hybrids along with checks were evaluated during 2007 and 23 more tolerant hybrids during 2008, in two adjacent
experiments under drought stress and non-stress conditions. Drought tolerance indices calculated based on sugar yield, such
as mean productivity (MP), geometric mean productivity (GMP) and stress tolerance index (STI) were used to assess hybrids
responses to drought. The results showed significant genetic differences for root yield and sugar yield under both conditions.
Drought tolerance indices displayed significant genetic variability for sugar yield among the hybrids. Many hybrids were drought
tolerant as compared with the original base population as indicated by their high STI. The estimates of heritability for sugar
yield in stress and non-stress conditions were much close to each other (0.31 and 0.34, respectively). Whereas, for root yield
the heritability estimate in stress condition (0.46) was relatively higher than that in non-stress condition (0.34). Significant
differences were observed among the selected hybrids for root yield and sugar yield, indicating genotypic variability for
pollinator lines derived from the population. There were no significant differences for sugar content. For increasing the
drought tolerance potential in a breeding population and developing drought-tolerant varieties by male parent, the drought-tolerant
lines could be used. 相似文献
3.
探讨不同程度干旱胁迫对甜菜苗期生长状况的影响,旨在为耐旱甜菜种质选育与抗逆性研究提供理论依据。本研究以两种耐旱型BGRC16137(V1)、依安一号(V2)和两种干旱敏感型92011/1-6/1(V3)、7412/823-3(V4)的甜菜种质为材料,采用PEG模拟干旱,以差异显著性检验和逐步回归分析的方法来衡量干旱胁迫对甜菜的影响。随着干旱胁迫程度的增加,4个甜菜种质的幼苗地上部指标、地下部指标与叶片相对含水量都有显著的降低,根冠比逐渐升高。在各种浓度的干旱胁迫下,耐旱型V1、V2种质的叶鲜重、叶干重、叶饱和鲜重、根长和根鲜重的下降程度都低于旱敏感型V3、V4种质。重度干旱胁迫下,旱敏感型V3、V4种质的叶片相对含水量分别比对照组下降37.33%、43.90%,而耐旱型V1、V2种质仅下降14.94%、20.45%。结果表明耐旱型甜菜种质通过增加叶鲜重、叶干重、叶饱和鲜重、根长、根鲜重和叶片相对含水量来适应干旱胁迫。 相似文献
4.
为筛选甜菜苗期抗旱种质资源及确定抗旱指标。本研究以国家甜菜种质中期库提供的24份甜菜种质资源为材料,采用PEG-6000模拟干旱胁迫的方法,以正常生长条件的Hoagland水培溶液(CK)为对照,对甜菜幼苗进行7天的6% PEG-6000处理,并测定地上部和地下部的表型指标。结果表明,干旱胁迫对叶鲜重、根鲜重、叶饱和鲜重和叶干重的影响较大,降幅均超过50%;且干旱胁迫后甜菜种质根冠比明显增加。聚类分析将24份甜菜种质分为四类,其中ZT000516单独为一类,是抗旱性最强的种质资源;第二类为抗旱性较强的种质分别为ZT000078、ZT000547、ZT000247;第三类为中等抗旱型种质共7份;第四类为抗旱性弱种质共13份,其中ZT001698、ZT001398为干旱高度敏感型种质资源。通过逐步回归分析筛选出叶干重和叶饱和鲜重与D值极显著相关。ZT000516为抗旱性强种质资源,ZT001698、ZT001398为干旱敏感型种质资源,叶干重和叶饱和鲜重可以作为甜菜苗期干旱胁迫快速准确地鉴定指标。 相似文献
5.
对336份甜菜种质资源苗期的15个表型和生理生化指标进行测定,并通过隶属函数、主成分分析、聚类分析和相关性分析方法对甜菜种质资源耐旱性进行综合评价。结果表明,干旱胁迫后叶干重、株高、根长、叶鲜重、根鲜重、根干重、叶片饱和鲜重和叶片相对含水量等指标均显著降低,根冠比、可溶性糖、可溶性蛋白和脯氨酸含量等4个指标均显著高于对照。主成分分析将15个单一指标转化为6个综合指标,可代表原始数据信息的75.95%。聚类分析将336份甜菜种质资源分为5个类群,其中耐旱性强种质16份,耐旱性较强种质49份,耐旱性中等种质109份,耐旱性较弱种质79份,耐旱性弱种质83份。相关性分析结果显示,胚轴直径、株高、根长、叶鲜重、根鲜重、根干重、叶干重、叶片饱和鲜重、叶片相对含水量和根冠比与D值呈显著相关性。 相似文献
6.
Depending on genotype, sugar beet can differ considerably in yield and quality characteristics. These are additionally modified by environmental conditions with drought stress recently gaining in importance, restricting growth and altering the chemical composition of the beet. The occurrence and development of these genotypic differences during the vegetation period and their possible interaction with environmental conditions were investigated. In 2002 and 2003, four sugar beet genotypes differing in yield and quality and putative different with regard to drought tolerance were tested in field trials, partly under irrigated conditions, in a total of 10 environments with consecutive harvests starting in early summer. In 2 years of stress and non-stress conditions they exhibited significant differences for taproot and leaf dry matter and the concentration of sucrose, K, Na and α-amino nitrogen in the taproot. These differences existed already in mid-June and virtually did not change any more from this time on. Accordingly, interactions between genotype and harvest date did not occur. For sugar beet, genotype by environment interactions generally do not exist. Water supply, as an important single determinant of the effect of the environment, was studied separately analysing data from selected locations. Under drought conditions, withholding irrigation reduced leaf and taproot growth and root-to-leaf ratio, decreased the percentage of sucrose in dry matter and resulted in an accumulation of α-amino N. Interactions between genotype and water supply did not occur for any of the parameters under study. A genotype-specific high α-amino N content, which might be of advantage for osmoregulation, did not improve the adaptation to drought. Differences in leaf maintenance or taproot-to-leaf ratio during drought also did not affect yield response. Due to the lack of interaction between genotype and harvest date as well as between genotype and irrigation it is concluded that harvest date or climatic factors of the growing region do not have to be taken into consideration when choosing a variety. 相似文献
7.
Drought is the most important limitation to summer mungbean production in the tropics and subtropics dependent on usually insufficient summer rainfall. As increased irrigation is not a viable answer to the problem, an economically and environmentally desirable solution is new varieties with drought tolerance. However, there is little genotypic information on drought tolerance in summer mungbean. The objectives of this study were to assess the genotypic differences in physiological traits and dry matter partitioning in mungbean and to measure the association of these traits with crop performance under drought conditions. Six mungbean genotypes were tested in drought micro plots at CCS Haryana Agricultural University, Hisar, India. A split plot design was used; two irrigation treatments (watered and droughted) in the main plots and six mungbean genotypes in the subplots with three replicate micro plots. Drought decreased leaf water status, rates of photosynthesis (Pn ) and altered dry matter partitioning in different plant parts. Our results showed that Pn did not limit yield, but it was partitioning of dry matter governed by leaf water content (RWC) which influenced the final yield. RWC was positively correlated to the number of pods per plant and seed yield, genotypes maintaining high RWC produced higher seed yield. Therefore, the drought tolerance of summer mungbean was related to the maintenance of high RWC, which can be used as a physiological marker to identify and develop superior genotypes suited to drought-prone environments. 相似文献
8.
《European Journal of Agronomy》2006,24(3):218-225
Improvements in drought tolerance of crop plants require research focused on physiological processes. In 2002 and 2003 pot experiments with sugar beet were conducted in a greenhouse. Two (2002) or three (2003) different genotypes were subjected to three watering regimes (100, 50 and 20% of water holding capacity). Gas exchange, chlorophyll fluorescence and water-use efficiency (WUE) as parameters of possible relevance for drought stress tolerance in sugar beet were investigated. It was studied whether 13C discrimination (Δ) is suitable as an indirect measure for WUE of sugar beet.DM yield, photosynthesis rate, transpiration rate and stomatal conductance decreased with increasing severity of drought stress. In contrast, internal CO2 partial pressure remained relatively stable and effective quantum yield of photosynthesis was reduced only under severe drought, which points at non-stomatal inhibition of photosynthesis. Different sugar beet genotypes showed significant differences in DM yield, but interactions between genotype and water supply did not occur, indicating that genotypic differences in drought tolerance did not exist. In accordance with that, drought-sensitivity of gas exchange and chlorophyll fluorescence was the same in different genotypes. Δ was higher in the leaves than in the taproot. Reductions in Δ in drought-stressed plants corresponded to about 24% higher WUE. Differentiating between plant organs, only leaf Δ was negatively correlated with WUEL whereas taproot Δ and WUET were unrelated. Δ was therefore proven to be a sensitive indicator for water availability during the growing period. However, similar as other parameters relevant for drought stress tolerance it requires investigations in broader genetic material of sugar beet to detect genotypic differences. 相似文献
9.
Md. Hasanuzzaman Lana Shabala Timothy J. Brodribb Meixue Zhou Sergey Shabala 《Journal of Agronomy and Crop Science》2019,205(2):129-140
Drought stress is a major limiting factor for crop production in the arid and semi‐arid regions. Here, we screened eighty barley (Hordeum vulgare L.) genotypes collected from different geographical locations contrasting in drought stress tolerance and quantified a range of physiological and agronomical indices in glasshouse trails. The experiment was conducted in large soil tanks subjected to drought treatment of eighty barley genotypes at three‐leaf stage and gradually brought to severe drought by withholding irrigation for 30 days under glasshouse conditions. Also, root length of the same genotypes was measured from stress‐affected plants growing hydroponically. Drought tolerance was scored 30 days after the drought stress commenced based on the degree of the leaf wilting, fresh and dry biomass and relative water content. These characteristics were related to stomatal conductance, stomatal density, residual transpiration and leaf sap Na, K, Cl contents measured in control (irrigated) plants. Responses to drought stress differed significantly among the genotypes. The overall drought tolerance was significantly correlated with relative water content, stomatal conductance and leaf Na+ and K+ contents. No significant correlations between drought tolerance and root length of 6‐day‐old seedling, stomatal density, residual transpiration and leaf sap Cl? content were found. Taking together, these results suggest that drought‐tolerant genotypes have lower stomatal conductance, and lower water content, Na+, K+ and Cl? contents in their tissue under control conditions than the drought‐sensitive ones. These traits make them more resilient to the forthcoming drought stress. 相似文献
10.
C. M. Hoffmann 《Journal of Agronomy and Crop Science》2010,196(4):243-252
Drought stress may affect sucrose accumulation of sugar beet by restricting leaf development and storage root growth. The objective of this study was to identify changes occurring in the storage root of Beta beets in growth characteristics and ions and compatible solutes accumulation under drought with regard to sucrose accumulation. Two pot experiments were conducted: (1) sugar beet well supplied with water (100 % water capacity), under continuous moderate (50 %) and severe drought stress (30 %), (2) sugar beet and fodder beet well supplied with water (100 %) and under continuous severe drought stress (30 %). Under drought stress, the ratio of storage root to leaf dry matter of sugar beet decreased indicating a different partitioning of the assimilates. The sucrose concentration of the storage root was reduced. In the root, the number of cambium rings was only slightly affected, although drought stress was implemented already 6 weeks after sowing. In contrast, the distance between adjacent rings and the cell size was considerably restricted, which points to a reduced expansion of existing sink tissues. The daily rate of sucrose accumulation in the root showed a maximum between 16 and 20 weeks after sowing in well‐watered plants, but it was considerably reduced under drought stress. The concentration of compatible solutes (K, Na, amino acids, glycine betaine, glucose and fructose) decreased during growth, while it was enhanced because of drought. However, when sucrose concentration was added, a constant sum of all examined solutes was found throughout the vegetation period. It was similar in sugar beet and in fodder beet despite different concentrations of single solutes, and the total sum was not affected by water supply. A close negative relationship between the concentration of compatible solutes and sucrose occurred. It is therefore concluded that the accumulation of compatible solutes in the storage root of Beta beets under drought might be a physiological constraint limiting sucrose accumulation. 相似文献
11.
Solute Accumulation as a Cause for Quality Losses in Sugar Beet Submitted to Continuous and Temporary Drought Stress 总被引:1,自引:0,他引:1
Adaptation to low water availability in sugar beet includes the accumulation of solutes relevant for the technical quality of the beet. Two sugar beet genotypes were grown in pot experiments under drought stress of different severity to study effects on taproot composition and concentration of solutes relevant for technical quality, reversibility of drought effects after re‐watering and genotypic differences in drought response. Differences in stress sensitivity between the genotypes were not observed as reductions in taproot and leaf dry weight and white sugar yield were the same. Increasing dry matter concentration with decreasing water supply could, in part, be attributed to an increase in the concentration of cell wall components. The major solutes in the taproot were sucrose, potassium, amino N (the sum of amino acids) and betaine. Sucrose concentration decreased considerably under drought, indicating limited availability of assimilates. In contrast, all further solutes increased in concentration with increasing severity of stress. However, the response of individual solutes varied largely. Changes in amino N and nitrate were most pronounced and probably reflect accumulation of non‐utilized metabolites under limited growth. The drought‐induced accumulation of taproot solutes implicates a considerable decrease in the technical quality of the beet. It was only in part reversible by re‐watering. Genotypic variability for solute accumulation under water deficiency was observed but was not linked to drought tolerance. 相似文献
12.
PEG模拟干旱胁迫对不同抗旱性玉米品种苗期形态与生理特性的影响 总被引:4,自引:0,他引:4
为探讨玉米(Zea mays L.)苗期对水分亏缺的响应机制,以抗旱性具有显著差异的2个玉米品种为材料,使用PEG-6000溶液模拟不同强度的干旱胁迫,对逆境中玉米苗期的形态及生理生化特性进行分析。结果表明:干旱胁迫后抗旱性强的成单30的株高、叶面积、根长及根重呈上升趋势,抗旱性弱的金玉306呈下降趋势;干旱胁迫使成单30的地上部干重、根重和干物重等生物产量增加,而金玉306的各生物产量逐渐下降;干旱胁迫导致玉米的丙二醛含量升高,细胞膜稳定性下降,成单30的变化幅度比金玉306小;干旱胁迫使玉米的叶绿素a/b比值及叶绿素含量下降,类胡萝卜素含量增加;成单30的可溶性糖及可溶性蛋白含量在干旱胁迫后变化不显著,而金玉306在后期才出现显著变化;干旱胁迫后,成单30与金玉306的脯氨酸含量均极显著增加;干旱胁迫使玉米的超氧化物歧化酶、过氧化物酶及过氧化氢酶活性提高。这些结果说明不同抗旱性玉米品种的抗旱机制存在一定差异。 相似文献
13.
Plant genotypes with higher drought tolerance through improved root characteristics are poorly studied in orchardgrass. In the current research, 30 orchardgrass genotypes were polycrossed and the resulting half‐sib families evaluated under both normal and water stress environments. Under water stress conditions, values for most root traits decreased at 0–30 cm soil depth, while at 30–60 cm depths, the root length (RL), root area (RA), root volume, percentage of root dry weight (RDW) and the ratio of root to shoot were increased. We identified drought‐tolerant genotypes with a high combining ability for root characteristics and a high yield potential. High estimates of heritability as well as genetic variation for root traits indicated that phenotypic selection would be successful in order to achieve genetic progress. Indirect selection to improve dry matter yield was most efficient when selecting for RL and RDW under water stress conditions. Significant associations between a drought tolerance index and RL, RA and root volume confirmed the importance of these traits in conferring drought tolerance of orchardgrass. 相似文献
14.
Sugar beet progeny lines screened for both high water use efficiency and high sugar yield under drought stress conditions in the field were assessed for the rate of seed germination and early seedling growth in water deficit stress, induced by mannitol solutions. Seeds of nine different sugar beet progeny lines were grown in three experimental conditions using filter paper, perlite and water agar as substrate. Three levels of 0.0, 0.2 and 0.3 m mannitol concentrations were applied in each experiment. A factorial design was used with three replications. Germination percentage was determined in all experiments. Seedling growth parameters such as cotyledon fresh weight, cotyledon dry weight, root fresh weight, root dry weight (RDW) and root length (RL) were measured experimentally. Abnormality was only recorded in the filter paper experiment. The results showed that drought stress could be simulated by mannitol solution and significant differences were found between stress levels for seedling characteristics. Distinct genetic variances were found among progeny lines with respect to germination and early seedling growth characteristics, except for cotyledons and RDW. Seedling growth and germination rates severely declined at the highest concentration of mannitol. The rate of abnormality was increased progressively at the germination stage with an increase in mannitol concentration but it was more pronounced in the drought‐susceptible progeny lines. The highest values of relative germination % and relative growth % of RL were obtained for the most tolerant line. In conclusion, seedling characteristics, in addition to other physiological components involved in the seed germination process under specific stress conditions, may be considered for breeding purposes. 相似文献
15.
Morpho-physiological and molecular analysis were conducted to identify useful root indexes of sugar beet nutrient uptake capacity
and productivity. Root architectural parameters, root elongation rate, sulfate uptake rate and glucose and fructose content
in the root apex, traits involved in the plant response to sulfate stress, were evaluated in 18 sugar beet genotypes characterized
by different root yield. Morpho-physiological traits, determined on 11-day-old seedlings grown in hydroponics under sulfate
deprivation, showed variations from 59 to 197% and were significantly correlated (P < 0.01) with root yield. Under field conditions, the highest root yield genotype (L18), which has the highest root phenotypic
values following sulfate shortage, also showed the greatest root length density and leaf relative water content, with respect
to the lowest root yield genotype (L01). Bulk segregant analysis based on AFLP analysis, done on a segregating progeny obtained
from the cross between the two lines L01 × L18, allowed the identification of two AFLP markers associated to the root elongation
rate parameter that showed the highest variation among all the analyzed root traits. The genetic diversity of root adaptive
traits and the use of marker-assisted selection aimed at increasing sugar yield under water and nutrient stress in sugar beet
breeding programmes are discussed. 相似文献
16.
Drought stress limits crop growth and yield in soya bean (Glycine max [L.] Merr.), but there are relatively few tools available to assess the ability of different genotypes to tolerate drought. Aerial infrared image analysis was evaluated as a potential tool for identifying drought tolerance in soya bean. Drought effects were evaluated from late vegetative to mid‐reproductive stages of soya bean development in an experiment with ten genotypes including five slow‐ and five fast‐wilting genotypes that were from a population derived from Benning×PI416937. There were two deficit irrigation levels for 2 years and one deficit irrigation level for the third year along with a fully irrigated control level. When the canopy was completely closed, relative canopy temperature was determined using an infrared camera taken from an aerial platform 50–75 m above the experiment. As water availability decreased, the relative canopy temperature generally increased. Moreover, slow‐wilting soya bean genotypes generally had lower canopy temperature compared to fast‐wilting genotypes, and grain yield was generally positively associated with cool canopy temperatures. The results indicate that the determination of canopy temperature is a promising tool for rapid characterization of drought‐related traits in soya bean. 相似文献
17.
为了研究不同灌溉定额下不同品种(标准型、丰产型和高糖型)糖用甜菜的产量、质量和光合特性的响应,在东北地区甜菜4个生长时期进行了7个滴灌处理水平的试验研究,测定不同处理对标准型、丰产型和高糖型甜菜品种的生长情况、光合特征、产量质量及灌溉效率的响应。结果表明,不同灌溉量对不同类型甜菜生长指标、光合参数及产质量影响不同。标准型和高糖型甜菜品种对其生长性状各指标有利的灌溉定额为320~360 m3/ha,3个品种甜菜叶绿素含量对灌溉定额的最佳响应为300~320 m3/ha。标准甜菜品种随着灌溉量的增加并不利于其进行光合作用,而高糖型与丰产型甜菜品种随灌溉量的增加在叶丛快速生长期对叶片蒸腾速率的影响显著,在320 m3/ha灌溉量处理下光合效率较好。随着灌溉量的增加,标准型甜菜品种根产量增加;当灌溉量达320 m3/ha时,丰产型甜菜品种根产量不再升高而保持平稳、高糖型甜菜品种糖度下降。叶片水分利用效率在生育期前期总体上要高于生育后期,增加灌溉量并不能提高不同类型甜菜品种的灌溉水生产效率。在本研究特定区域内优化不同品种甜菜的灌溉制度可改善甜菜生长和产质量,并为建立甜菜灌溉模型提供理论基础。 相似文献
18.
PI471938是从美国引进的大豆耐萎蔫抗旱种质资源。为更好了解和利用该材料,分别在灌水和干旱胁迫条件下比较PI471938与普通大豆品种Dare、丰收黄根系及地上部性状的差异,并配制杂交组合,构建分离群体,利用主基因-多基因混合遗传模型分析杂交后代根系性状的遗传规律。结果表明,在正常灌水和干旱处理条件下,PI471938的根干重、根体积、主根长均显著高于Dare和丰收黄(P<0.01),说明根系发达是PI471938耐萎蔫的重要原因。供试亲本和各世代材料的株高、地上部干重均与根干重及根体积显著正相关,可作为对根系性状进行间接选择的指标。在Dare×PI471938杂交组合的F2代,不论在灌水还是干旱条件下,根干重均以微效多基因控制为主,主基因遗传率较低;根体积在灌水条件下表现多基因遗传,而在干旱条件下则由2对加性-显性-上位性主基因+加性-显性多基因控制,主基因遗传率为54.63%。在干旱条件下,丰收黄 × PI471938组合的根干重、根体积均以多基因控制为主。以在干旱条件下种植的Dare×PI471938组合的F2代群体为材料,采用SSR标记对大豆根系及地上部性状进行QTL定位,检测到位于3个不同连锁群的5个主效QTL,表型贡献率在16.07%~38.44%之间。 相似文献
19.
为了研究烤烟新品种豫烟1 3号的抗旱性,以主栽品种中烟100为对照品种,采用盆栽试验研究了干旱胁迫对农艺性状、地上部鲜重、干重、根系指标、酶活性和产量的影响.结果表明,干旱条件下,中烟100和豫烟13号株高和茎围明显降低;干旱对根、茎、叶干重影响较大,直接影响单株产量,干旱条件下2个品种产量显著低于正常供水处理,与中烟100相比,豫烟13号产量受干旱影响程度较小;与中烟100相比较,干旱务件下豫烟13号酶活性增加幅度大.综合各指标来看,豫烟13号抗旱能力优于中烟100. 相似文献
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水稻品种苗期抗旱性筛选与评价 总被引:4,自引:2,他引:2
为了比较黑龙江省主栽粳稻品种苗期抗旱性,通过苗期反复干旱胁迫法,研究了干旱胁迫对水稻苗期各形态性状及反复干旱存活率等指标的影响,并通过聚类分析筛选抗旱性强的品种。结果表明,干旱处理后的株高、叶干重、叶鲜重、根数、根长、根干重等形态指标相对值均小于100%,幼苗存活率明显下降,不同品种下降幅度不同。通过对主成分分析和相关分析,得出株高、叶干重、根长及根干重可以作为水稻苗期抗旱性鉴定的形态指标。经反复干旱存活率和聚类分析,筛选出‘东农426’、‘松粳6’、‘五优一’、‘松05-274’和‘松05-276’5份苗期抗旱性较好的品种。 相似文献