我国作物种质资源保存研究与展望

我国于１９８４年１９８６年在北京建成两座国家种质库,９０年代初又在青海建立一座复份库,形成了国家库中,长期配套和异地结合的种质资源保存体系。截止１９９３年底,国家库保存种质资源达２７万余份,到１９９５年保存总数将达到３０余万份。与种子入库时,在国家库的管理,种子质量检测,种子干燥以及低温保存技术研究等方面取得一定进展,今后将继续扩大种质贮存、加强贮存种子生活力跟踪监测,无破坏性检测技术,贮存生理和     

高等植物组织培养与种质保存

高等植物组织培养与种质保存赵军良（山西省农科院蔬菜研究所,太原０３００３１）原始栽培品系和野生植物种所组成的遗传种质库是极其宝贵的资源。通常是以贮存种子的方式来保存种质的,其优点是占用空间小,保存期限长,且易于干燥、包装和运输。但是这种保存方式也有很...     

上海农作物种质资源库管理信息系统建设北大核心CSCD

种质资源管理工作是一项基础性工作,环节多、流程长、所涉及的相关信息量大。随着国家对种质资源工作的重视,今后种质资源的收集、保存量还会进一步增大,对种质资源的需求越来越多,对外服务量也不断增加。因此,需要利用现代化的管理信息系统来实现种质资源库的高效管理,规范进出库的每一个流程。上海市农业生物基因中心基于十多年的运行经验,遵循简单实用、规范性强、安全可靠、可扩充四大原则,建立了一套种质资源库管理信息系统。本文详细介绍了该系统的总体设计框架,以及本系统所包含的库位管理、种子信息管理、种子进出库管理、种子预警、统计汇总、用户管理、反馈管理这7个主要的功能模块,希望为其他种质资源库建立类似的管理信息系统提供参考。     

自花授粉作物种质资源繁殖更新的策略研究

有效的种质资源繁殖更新是保持作物异位保存种质资源活力和遗传完整性的首要工作.降低贮藏种子基因突变的累积效应,控制种质资源繁殖更新过程中由于遗传漂变、选择和污染所引起的遗传改变,对制定科学的种质资源繁殖更新策略十分重要.本文综述了国内外自花授粉作物种质资源繁殖更新策略研究的最新进展,并对更新种质资源活力、繁殖群体规模和种子收获方式对种质资源遗传完整性的影响进行讨论.     

国家种质库

国家种质库是全国作物种质资源长期保存与研究中心,于1986年10月在中国农业科学院落成,隶属于中国农业科学院作物科学研究所。该库的总建筑面积为3200m~2,由试验区、种子处理操作区、贮藏区三部分组成。贮藏区建有两间长期贮藏冷库,面积为300m~2,其保存容量40万份。种子贮藏条件为:温度-18℃     

植物种质资源的保存

传统的保存植物种质资源的方法是建立种子库。采用低温保存可大大延缓正常性种子的寿命,但采用此法仍难以保存顽拗性种子。和种子库相比,采用植物细胞、组织或器官,能最大限度地抑制生理代谢强度,降低劣变发生频率,达到长期保存种质的目的。     

山茱萸种质资源数量性状分析及核心种质库评价

对从全国收集的75份山茱萸种质资源,从叶长、叶宽、果实横径、果实纵径、鲜果百粒重、种子千粒重、种子含水量、枣皮灰分、枣皮水分、水溶性浸出物和马钱素含量等表型性状,通过分析其变异系数和各性状间的相关性,采用欧氏系统聚类法抽取核心种质,并对构建的核心种质库进行评价。分析结果显示,75份山茱萸种质资源在叶长、叶宽、鲜果百粒重、种子千粒重、枣皮灰分和马钱素含量等性状上的变异系数均高于10%,说明这些性状变化范围较大,个体间性状不稳定,易受环境因素的影响;而果实横径、果实纵径、种子含水量、枣皮水分和水溶性浸出物的变异系数均低于10%,说明这些性状变异较小,表型性状比较稳定。相关性分析结果显示,各性状间都存在一定的相关性,其中果实纵径和果实横径与鲜果百粒重呈显著正相关(0.396b和0.312b),说明果实纵横径是影响果实重量的关键因素;水溶性浸出物大小与果实横径、果实纵径、马钱素含量呈现显著性正相关(0.481b、0.280a和0.372b),表明水溶性浸出物含量的高低与山茱萸有效成分马钱素含量和果实大小及形状密切正相关,这将为种质的筛选和评价提供依据。通过最小距离逐步抽样法抽出22份种质构成核心种质库（占初始种质库的29.33%）,采用欧氏距离聚类对抽样构成的初级核心种质库进行评价,结果显示,各性状均值t检验均不显著,并且极差符合率（CR%= 90.63%）大于80%,说明抽取的初级核心种质库能够很好地代表原有种质,从而达到了提高种质保存效率的目的,这将为进一步研究山茱萸核心种质库构建和其它药用植物构建核心种质提供参考。     

低温库种质安全保存理论的研究进展

20世纪70年代以来,低温库种质安全保存理论研究有了较大进展。本综述在延长种子贮藏寿命、种质贮藏过程中的生活力丧失和遗传变化、以及种质发芽率更新标准等方面的研究进展。并强调指出,加强上述基础理论研究,对确保低温库种质安全保存尤为迫切且意义重大。     

植物种质资源超低温保存概述

简要回顾了植物种质资源超低温保存的历史,说明了超低温保存植物材料的多样性,阐述了超低温耐性的生物学基础及超低温伤害产生的原因和类型,介绍了各种常用超低温保存方法的技术要点,并对生产顽拗性种子的植物种质资源的超低温保存作了专门的论述,分析了生产顽拗性种子的植物种质资源超低温保存的潜力、现状和困难,指出顽拗性种子的超低温保存是植物种质资源超低温保存的重点和难点,而真正实现用超低温保存技术贮藏顽拗性植物种质资源还有很长的路要走。     

三种保存条件下水稻和小麦种质资源安全保存期的分析

种子从入库保存至其发芽率降至更新发芽率标准的贮藏时间即为种质的安全保存期。在低温种质库以及室温等条件下,还未见有种质安全保存期的文献报道。本研究以水稻和小麦种子为例,分析了在国家长期库、广西中期库以及不同气候区室温保存的生活力监测数据,以了解种质安全保存期。结果表明,在国家长期库保存20~22年的3500份水稻和3279份小麦种子的生活力仍保持在较高水平;99%以上的水稻种子和96%以上的小麦种子在长期库的安全保存期超过20年。中期库保存17~19年的801份水稻种子中,有96%以上种子的安全保存期超过17年。水稻和小麦种子在6个气候区室温保存的监测结果显示,北方低温地区保存效果普遍好于南方高温地区,北方低温地区适宜含水量种子的安全保存期超过14年,可达中期保存要求。分析发现种子的安全保存期不仅与保存温度、种子含水量等保存条件有关,还与种子的初始质量、品种类型等诸多因素有关。     

蓝花丹种子生物学特性及其采集、贮藏技术研究

蓝花丹（Plumbago auriculata Lam.）原产南非,由于其存在自交不亲和现象,导致自然结实率极低。本文研究了蓝花丹种子的形态结构、吸水特性及最适萌发温度,根据形态观测以及发芽率等指标筛选出优质种子,并对优质种子不同的干燥方法、贮藏温度等进行探讨。结果表明：蓝花丹种子呈长椭圆状,长8.00~13.80 mm,长宽比约为5.3：1。种皮薄而柔软,有网状褶皱。外种皮表面有附着物,大面积分布有腺体,利于种子传播。胚芽靠近合点,萌发率较高。种子播种前的浸种时间应保持在11 h以上,最适发芽温度为25~30℃。当种皮颜色为深褐色,种子长度大于11 mm且发芽率大于75%时,可判断为优质种子,发生此性状时即为最佳采种时间。种子适宜的干燥方式为烘箱内30℃干燥1 d,干燥种子最佳贮藏温度为-86℃,且贮藏时间越短发芽率越高,而新鲜种子在此条件下不宜贮藏超过15 d。     

含水量对种子贮藏寿命的影响

建立以收集种子为主体的基因库乃是当今保护植物种质资源最为普遍且可靠易行的方式,在世界库存约 61 0 0 0 0 0份种质资源中,近 90 %是以种子形式保存于约 1 30 0个基因库中。低温贮藏仍是目前基因库中种子种质保存的主要方法。种子含水量和贮藏温度是影响种子在贮藏期间生活力和活力保持的关键因素。传统的经验认为控制温度比控制水分来得安全有效,因而趋向于向低温或超低温的贮藏方向发展。国际植物遗传资源研究所（ＩＰＧＲＩ）曾推荐 5%～ 6%的含水量和 - 1 8～- 2 0℃低温作为各国长期保存种子的理想条件。目前,世界各国都把更多的…     

Freeze-drying and room temperature storage of coconut pollen

Experiments to determine the conditions necessary for room temperature storage of coconut pollen, particularly of the ‘Jamaica Tall’ variety, are described. Preliminary experiments using the “Speedivac 5 PS freeze-drier” over a wide range of drying times indicated that 15 minutes was better than the longer periods tried, and room temperature storage for periods in excess of three months was recorded. Pre-cooling with dry ice and acetone was found to be unnecessary. Centrifuging during drying lowered drying efficiency and good viability was retained only when initial pollen moisture content was low The effect of longer drying periods with centrifuging have not yet been investigated. The optimum residual moisture content for successful storage at room temperature was found to be in the range 3.5–10.0%. Germination was sometimes improved by exposing the pollen to moist air for two to four hours. Viable seed has been obtained following pollination with freeze-dried pollen; the results of further test pollinations are to be reported later.     

Generation means analysis for productivity in two diverse peanut crosses

Summary Utilization of exotic germplasm resources for population improvement in peanut (Arachis hypogaea L.) has increased as the need to increase genetic diversity among peanut cultivars was recognized. Progeny of crosses of two unadapted germplasm lines (GP-NC 343 and FESR-11-P11-32) with an adapted cultivar (NCV11) of peanut were evaluated for the genetic factors influencing the inheritance of yield and fruit characters in crosses among diverse lines. Objectives were to (1) estimate the relative importance of additive and nonadditive genetic effects in the inheritance of yield and fruit characters in two diverse peanut crosses; (2) determine the proportion of exotic germplasm that gave the optimum combination of mean productivity and genetic variability for each of the crosses; (3) relate the results to theories regarding the transfer of desirable alleles from exotic germplasm into adapted breeding populations. Crosses and backcrosses were made to generate germplasm lines (ten generations) ranging from 0 to 100% exotic germplasm for each cross. The populations were evaluated in replicated field trials. Yield and six fruit characters were measured, and a weighted analysis of variance was conducted to determine if significant differences existed among generations. Generation means analyses were performed for each trait measured in each of the crosses using both three- and six-parameter models, which were tested for goodness-of-fit with a joint-scaling test. Significant differences were detected among generations for most traits measured in both crosses. Estimates of additive genetic effects were significant for pod weight and seed weight in cross 1 (NC-V11 x GP-NC 343) and for all traits in cross 2 (NC-V11 x FESR-11-P11-32) except seedpod ratio. Significant estimates of dominance effects were found for pod length, pod width, and pod weight in cross 1 and for pod length in cross 2. No significant estimates of digenic effects were observed in cross 1, whereas in cross 2 estimates of additive x dominance epistatic effects were significant for yield and pod length, while estimates of additive x additive effects were significant for seed number. Regression of trait means on generations showed a curvilinear response for all traits in cross 1 except seed weight, which gave a linear response. For all traits in cross 2, the relationship between productivity and proportion of unadapted germplasm was effectively linear. Based on generation means and variances, progeny from the first or second backcross generation to the recurrent parent should be expected to give an optimum combination of mean productivity and relative variability in the population.The research reported in this publication was funded in part by the North Carolina Agricultural Research Service     

Analysis of the spatial variability of maize root density

Water absorption by and seedling emergence of barley (Hordeum vulgare) seeds was studied in a two layer drying out system. Seeds were placed 3 cm below surface in sandy loam (Typic Ustochrept) soil having 4 or 7g.100g^–1 water underlain by wet (10g.100g^–1) layer 2, 4 or 6cm below seed. The study was carried out at 18°, 23°, 28° and 33°C with and without a thin liquid-flow barrier placed on top of the wet layer.Water absorption by seed and coefficient of rate of emergence showed parabalic relation with temperature and strong soil-water × temperature interactions. Liquid-flow barrier considerably reduced the seed water absorption, percent emergence and coefficient of rate of emergence showing thereby that liquid flow was the principal mode of upward water transport from the wet soil to the seed. Influence of both the wet soil and the liquid-flow barrier was detectable up to about 8 cm; shorter the distance greater the effect. It is concluded that in a drying out seed-zone, in addition to wetness of the soil surrounding the seed the wetness of the soil several cm below the seed is also crucial for seedling emergence. Also indicated that the optimum temperatures in drying out seed-zones are different from those in the absence of evaporation.     

The Effect of Chilling and Moisture Status on the Germination, Desiccation Tolerance and Longevity ofAesculus hippocastanumL. Seed

Effects of 2 °C chilling on the threshold moisture contentsand water potentials for various physiological processes wereestimated forAesculus hippocastanumL. seed. Seed harvested atthe time of maximum seed fall exhibited a dual response to drying:partial drying from near 50% to 32–40% moisture contentprogressively increased germination percentage (at 16 °C)up to various peak values; further desiccation was detrimental,confirming that the seeds are ‘recalcitrant’. Themoisture content for optimum germination was increased by atleast 10% as the chilling period was raised from 0 to 9 weeks.A negative linear relationship was found between log₁₀mean timeto germinate and probit final germination, regardless of pre-treatment,indicating that partial desiccation and chilling are interchangeablein promoting germination of hydrated seed. For nearly fullyhydrated seeds, increasing the chilling period from 6 to 26weeks increased the viability-loss onset point for desiccationinjury from near 40% to about 48% moisture content without alteringthe drying rates of seed tissues. Extending moist chilling invarious seed lots from 0 to 26 weeks decreased subsequent longevityat 16 °C. For 26-week-chilled seeds longevity (the periodto lose one probit of germination) differed above and belowa threshold moisture content of 48%. It remained constant inthe moisture-content range 48–38%, but increased progressivelyas moisture content was raised above 48%. This threshold moisturecontent coincided with the value above which chilled seed pre-germinatedin storage. The results indicate that post-harvest desiccationand chilling alter the water relations of various physiologicalprocesses and a schematic summary is presented which relatesthe results to an axis water sorption isotherm.Copyright 1998Annals of Botany Company Aesculus hippocastanumL., horse chestnut, chilling, moisture content, water potential, desiccation tolerance, longevity, recalcitrant seed, embryo axis, maturation, germination.     

Effects of Water Level on Three Wetlands Soil Seed Banks on the Tibetan Plateau

Background

Although the effect of water level on germination in soil seed banks has been documented in many ecosystems, the mechanism is not fully understood, and to date no empirical studies on this subject exist. Further, no work has been done on the effect of water level on seed banks of drying and saline-alkaline wetlands in alpine areas on the Tibetan Plateau.

Methodology

We examined the effects of water level (0 cm, 5 cm and 10 cm) on seed germination and seedling establishment from soil seed banks at 0–5 cm and 5–10 cm depths in typical, drying, and saline-alkaline wetlands. We also explore the potential role of soil seed bank in restoration of drying and saline-alkaline wetlands.

Principal Findings

Species richness decreased with increase in water level, but there almost no change in seed density. A huge difference exists in species composition of the seed bank among different water levels in all three wetlands, especially between 0 cm and 5 cm and 0 cm and 10 cm. Similarity of species composition between seed bank and plant community was higher in 0 cm water level in drying wetland than in the other two wetlands. The similarity was much higher in 0 cm water level than in 5 cm and 10 cm water levels in all three wetlands. Species composition of the alpine wetland plant community changed significantly after drying and salinization, however, species composition of the seed bank was unchanged regardless of the environment change.

Conclusions/Significance

Water level greatly affects seed bank recruitment and plant community establishment. Further, different water levels in restored habitats are likely to determine its species composition of the plant community. The seed bank is important in restoration of degraded wetlands. Successful restoration of drying and salinization wetlands could depend on the seed bank.     

成熟度与烘干温度对结球甘蓝种子质量的影响

以结球甘蓝品种冬升种子为材料,研究了不同成熟度和烘干温度下种子秕粒率、千粒重、发芽率、生理活性情况以及不同烘干温度下种子的含水量.结果表明,结球甘蓝冬升开花后45～55 d采收的种子,发芽率均达到了95%以上;随着种子成熟度提高,其种子质量、发芽活力及其超氧化物歧化酶(SOD)、过氧化物酶(POD)、脱氢酶活性显著上升,而相对电导率显著下降.与对照(自然风干)相比,30～50℃的烘干温度对种子千粒重和秕粒率无显著性影响,也仅在50℃下可使种子的发芽活力显著降低;随着烘干温度的升高,种子的SOD、POD和脱氢酶活性逐渐显著下降,相对电导率则逐渐显著上升;30～50℃烘干6 h种子的含水量由13.3%降至5.4%左右.研究发现,结球甘蓝冬升开花授粉后45 d种子已达到了采收程度,30～50℃烘干6 h种子含水量已达到储藏要求,并且愈接近自然干燥温度(30～40℃)的处理,种子发芽能力愈好;甘蓝种子活力与其SOD、POD和脱氢酶活性呈正相关,而与其相对电导率呈负相关.     

Seed Maturity and the Effects of Different Drying Conditions on Desiccation Tolerance and Seed Longevity in Foxglove (Digitalis purpurea L.)

The effects of different drying methods on desiccation toleranceand longevity in seeds of foxglove (Digitalis purpurea L.) wereassessed from just prior to mass maturity (when seeds have attainedmaximum dry weight), and at intervals during the post-abscissionphase of development. Tolerance of drying under seed conservationconditions (15% relative humidity, RH, and 15 °C), was acquiredclose to mass maturity at 36 d after flowering (DAF). Increasesin desiccation tolerance were induced when drying was delayedfor 4 d by placing seeds in a near-saturated atmosphere (approx.100% RH), or if seeds were pre-dried for 7 d at either approx.32% or approx. 73% RH. Irrespective of the drying treatment, seed longevity increasedthroughout the sampling period, i.e. beyond the point of massmaturity and throughout the post-abscission phase, up to thepoint of incipient natural dispersal. At each developmentalstage, delayed drying or pre-drying led to an increase in seedlongevity under controlled ageing conditions compared with seedsdried directly under seed conservation conditions. Increasesin longevity were apparent as increases in the estimates forthe intercept of transformed seed survival curves (K_i) and forthe standard deviation of the normal distribution of seed lifespans,and also in the mean time to death of individuals in storage,consistent with a continuation of ripening events. The results are discussed in relation to the assessment of seedlongevity and to current post-harvest drying practices for seedsintended for long-term ex-situ conservation.Copyright 1995,1999 Academic Press Digitalis purpurea L., foxglove, seed development, seed drying, seed longevity     

顽拗性竹柏种子的贮藏特性

文章对竹柏(Podocarpus nagi)种子的脱水耐性和贮藏特性进行了研究,结果表明:竹柏种子成熟时初始含水量约为(35±0.7)%,种子对脱水敏感,其最低安全含水量约为(16.86±0.73)%,具有顽拗性种子的典型特征;湿藏和半干藏都可以作为短期保存竹柏种子的方法,且以4℃保存优于15℃保存,但不管种子含水量如何,零下低温保存对竹柏种子都是致命的;半干藏法保存实验中,未进行脱水处理的种子(对照)在4℃贮藏6个月,种子萌发率没有发生明显下降,但贮藏期延长到9个月时,临界含水量的种子萌发力保存最高;不管贮藏介质的含水量高低,也无论贮藏在4℃还是15℃,湿藏种子在9个月的贮藏期内萌发率均没有明显的降低,但当贮藏到12个月时,15℃湿藏种子的萌发率显著高于4℃贮藏的种子,但15℃湿藏的种子在贮藏到3个月时即发现种子在贮藏期间萌发,且随着贮藏介质含水量的升高和贮藏期的延长,萌发的种子增多;竹柏的离体胚经过2 h硅胶快速脱水至含水量7%后再冷冻即可获得90%以上的融后存活率,且超低温保存1年的离体胚解冻后,与只保存1周的存活率没有明显差异,表明超低温长期保存竹柏种子是可行的。本研究可以为进一步探究顽拗性种子的短期贮藏和长期保存提供理论基础和基础资料。