小麦根圈细菌铁载体的检测

本文报道微生物铁载体定性与定量测定的方法,以及小麦根圈细菌铁载体的室内检测结果。２２株小麦根圈耐寒细菌和２株固氮菌在定性检测平板上产生铁载体,另有３株固氮菌不产。定量测定结果表明：３６株水溶性色素产生菌合成铁载体的量在０．７１５－０．１０６（Ａ／Ａｒ）之间,其中属于荧光假单胞菌群的２５个菌株铁载体产量的测定值（Ａ／Ａｒ）在０．１８４－０．１０６之间,达极高量水平。     

两种不同根系类型湿地植物的根系生长

实验设计了一个水培系统，利用生活污水培养，对4种“须根型”植物美人蕉、风车草、象草和香根草和4种根茎型植物菖蒲、水鬼蕉、芦苇和水烛的根系生长进行比较研究。该系统由用于盛污水的塑料桶（顶部直径36．5cm，底部直径30．Ocm，高34．5cm）和用于固定植物于水面的泡沫板构成。每桶种植1株植物，每种种5株。水培至10周时，须根型植物的平均根数达到1349条／株，而根茎型植物的平均根数只有549条／株。实验结束（水培第21周）时，须根型植物的平均根生物量为11．3g／株，根茎型植物的平均根生物量为7．4g／株。须根型植物根系中，d〈1mm的细根生物量占根系总生物量的51．9％，而根茎型植物d〈1mm的细根的生物量只占25．1％。根茎型植物的根生物量与地上生物量的比值为0．2，显著高于须根型湿地植物（0．1）。须根型湿地植物的根系表面积（6933cm^2／株）极显著地高于根茎型湿地植物（1897cm^2／株）。根茎型湿地植物根的平均寿命（46．6d）较须根型湿地植物根的平均寿命（34．8d）长。美人蕉的平均根数达1871条／株，根表面积达到22832cm^2／株，远较其他种高。     

三化螟危害损失与防治指标的研究

２代三化螟平均每块卵为害 １１．２５个枯心丛,３４．７５个枯心株; ３代每块卵平均为害 ７．９５个白穗丛,１４．５５个白穗株。模拟为害与水稻产量损失的关系：２代Ｙ＝ｓ８０６０．５－２１８１．５Ｘ,Ｙ－水稻产量（ｋｇ／ｈｍ２）,Ｘ－枯心株率,水稻耐害补偿作用明显,枯心株率与产量损失率之比１：０．２７;３代Ｙ＝７６５４．２－３９０２．２Ｘ,Ｙ－水稻产量（ｋｇ／ｈｍ２）,Ｘ－白穗株率,水稻表现一定的耐害补偿能力,白穗株率与产量损失率之比１：０．５１。三化螟危害允许水平１．２８％。防治指标：２代卵块４８７５万块／ｈｍ２,３代卵块６５１９块／ｈｍ２。     

菜用牛蒡的栽培

菜用牛蒡的栽培赵占英,冯玉斌,何允波,洪永刚（通化市园艺研究所１３４００１）牛蒡（Ａｒｃｔｉｕｍ,ｌａｐｐａＬ．）,别名大力子。东北又称老母猪耳朵。为菊科植物。二年生或多年生草本,株高１～２米,根祖大,主根肉质,圆锥状或棍棒状,直向下伸展,粗可达８ｃ...     

北京地区辽东栎呼吸量的测定

本文报道了北京地区辽东株群落的建群种──辽东烁呼吸量的研究结果。详细论述了用红外ＣＯ＿２分析仪测定林木呼吸速率的方法和技术,给出了辽东栎非同化器官的直径分布函数表达式、呼吸速率与直径的关系以及计算单株林木各器官总时吸量的表达式,建立了由每木调查结果推算群落呼吸量的方法。结果表明：胸径大于４．０ｃｍ的辽东杆每年呼吸释放的ＣＯ＿２为１０．２ｔ／ｈｍ￣２,其中根、茎、叶、枝分别为２．８,１．７,２．６,３．２ｔ／ｈｍ￣２。本文论述的方法和技术不仅对研究森林呼吸量,对测定森林释放其它气体也有参考意义。     

两相分配法制备玉米根质膜及其纯度鉴定

用ＤｅｘｔｒａｎＴ５００,ＰＥＧ３３５０两相体系制备玉米根质膜．首先在高盐浓度（２２ｍｍｏｌ／ＬＮａＣｌ）下选用五种不同的聚合物浓度（５．８％、６．０％、６．２％、６．３％、６．４％,Ｗ／Ｗ）,研究了玉米根质膜在两相体系中的分配情况,在此基础上进一步研究了Ｎａ－Ｃｌ浓度（２、４、５、１１、２２ｍｍｏｌ／Ｌ）对玉米根质膜的纯度及得率的影响．结果表明,制备玉米根质膜选用６．２％（Ｗ／Ｗ）聚合物浓度,７．５ｍｍｏｌ／ＬＮａＣｌ的两相体系比较合适．标志酶鉴定及低ｐＨ值磷钨酸染色电镜检测均表明获得了高纯度密实的正向型的质膜囊泡,质膜标志酶ＶＯ３－４－ＡＴＰａｓｅ的活性潜势达８８．９％．     

脱氧雪腐镰刀菌烯醇对K~＋刺激的小麦根质膜ATP酶活性、K~＋吸收、外渗及再分配的影响

１０－８ｍｏｌ／Ｌ的ＤＯＮ毒素加入小麦根质膜制剂中可促进Ｋ＋刺激的ＡＴＰ酶活力,１０－６ｍｏｌ／Ｌ开始呈抑制效应,抑制程度随ＤＯＮ浓度加大而提高。根尖（５ｃｍ）离体根段于０．５ｍｍｏｌ／Ｌ的ＫＣｌ中,１０－８ｍｏｌ／Ｌ的ＤＯＮ能促进根段Ｋ＋吸收,１０－６ｍｏｌ／Ｌ以上浓度则Ｋ＋吸收呈抑制,１０－２ｍｏｌ／Ｌ浓度下根段的净吸收为负值,表明组织中Ｋ＋大量外渗。根段置蒸馏水中６ｈ,４ｍｍｏｌ／Ｌ的ＤＯＮ即导致振段Ｋ＋渗漏。用ＤＯＮ处理整株小麦根,浓度在０．２５ｍｍｏｌ／Ｌ以上可促进Ｋ＋从植株其它部位向根运输,而浓度在８ｍｍｏｌ／Ｌ时即抑制Ｋ＋向根富集,且根内Ｋ＋明显渗漏。     

Ⅲ型中国株HCVE2/NS1基因与已知分离株的同源性比较

利用逆转录套式ＰＣＲ扩增Ⅲ型中国株ＨＣＶＥ２／ＮＳ１基因片段,将其克隆到ｐｃＤＮＡ３载体上．采用双脱氧链终止法测定插入片段的核苷酸序列．并与已知分离株的相应区域进行同源性比较．首次克隆出Ⅲ型中国株ＨＣＶＥ２／ＮＳ１基因（ＨＣ－Ｗ１４）,其核苷酸序列与Ⅲ型日本株ＨＣＶ（ＨＣ－Ｊ６）该区域同源性为８８．３７％,其推定的氨基酸同源性为８９．２９％．而与已知的非Ⅲ型株ＨＣＶ该区域相比,核苷酸及氨基酸的同源性均相对较低．Ⅲ型中国株ＨＣＶ与Ⅱ型中国株ＨＣＶ在Ｅ２／ＮＳ１区域有较大的变异,揭示研制我国的ＨＣＶ疫苗应该考虑这种基因型之间的变异性．     

吉林省黑土土著大豆根瘤菌的生态特性及与不同豆种的共生效应

黑土土壤中有丰富的土著大豆根瘤菌,为了稳定和提高大豆根瘤菌在黑土区的接种效果,我们从１９８８年起,对吉林省黑土土著大豆根瘤菌的类型、血清型、固氮酶活性、快慢生型的分布、结瘤竞争能力以及与不同大豆品种的共生效应等进行了测定,并提出了吉林省黑土区高固氮力和低固氮力种质。以菌体本身的固氮酶活性来看,榆树黑土为２４．８１６Ｃ２Ｈ４μｍｏｌ／克干瘤·小时,公主岭黑土为２４．８２７Ｃ２Ｈ４μｍｏｌ／克干瘤．小时．榆树黑土用４０株进行土著大豆根瘤菌血清型的测定,其中３４株属于４４７－２８血清型,６株为其它血清型。公主岭黑土用１６４株进行测定的,有１４３株属４７７－２８血清型,１７株属１１３血清型,有４株属其它血清型。榆树黑土和公主岭黑土中以慢生型大豆根瘤菌为主．共生效应测定结果,吉林２３固氮力最强,固氮量为４．２４９０８ｇ／盆;其次是长８２１０—４,固氮量为２．００９８ｇ／盆;长农５最低,为０．５４１９ｇ／盆。     

一株根霉产脂肪酶发酵条件的研究

通过对筛选出的一株根梅ＲｈｉｚｏｐｕｓＹ－９２产旨肪肪酶发酵２基组成（Ｃ,Ｎ,无机盐）及工艺条件的探索,并经正交实验,得到较优培养基配方为：蛋白胨６％,豆饼粉４％,葡萄糖１％,ＭｇＳＯ４·７Ｈ２Ｏ０．１％,ＫＨ２ＰＯ４０．３％,起始ＰＨ８．０,在此条件下,发酵液酶活可达９９．１５ｕ／ｍｌ,是初始酶活的１７８％。     

Effects of root pruning on the growth and water use efficiency of winter wheat

A pot experiment was conducted to study the effects of root pruning at the stem elongation stage on the growth and water use efficiency (WUE) of winter wheat (Triticum aestivum). The results showed that stomatal conductance (g) and transpiration (E) of wheat were very sensitive to root pruning. After root pruning, they declined rapidly and but returned to pre-pruning values 15 days after treatment. Under well-watered conditions, there was no significant difference in leaf water potential (ψ_leaf) between root pruned and control plants after root pruning. Under moderate drought stress, ψ_leaf of root pruned plants declined significantly compared to the control 3 days after root pruning. After 15 days, ψ_leaf of root pruned plants was similar to the controls. Under different soil moisture levels, net assimilation rate (A) of root pruned plants was lower than controls 3–7 days after root pruning, but was similar to the controls 15 days after pruning. At anthesis (50 days after root pruning), root pruned plants showed significantly higher A compared with the control. Leaf area per tiller and tiller number of root pruning plants was significant lower than the control at booting stage, which showed that root pruning restrained the growth of plants in the early growing stage, but leaf area per stem, of root pruned plants, was similar to the control at anthesis. Under both soil moisture levels, there was no significant difference in grain yield between root pruned and the control plants in the monoculture. In mixture with the control plants, the root pruned plants was less productive and had a lower relative yield (0.92 and 0.78, respectively) compared with the control (1.13 and 1.19, respectively), which suggested that the pruned plants lost some of its competing ability and showed a lower ability to acquire and use the same resources in the mixture compared with the control plant. Over the whole growing cycle, root pruning reduced water consumption (by 10% under well-watered conditions and 16% under moderate drought stress) of wheat significantly compared to the control (P < 0.05), and but there was no significant difference in grain yield between root pruned and control plants. Therefore root pruned wheat had a higher WUE with respect to grain yield compared with the controls. In conclusion, lowering water consumption by root pruning in the early growing stage is an effective way to improve water use efficiency in arid and semi arid areas.     

Root Development and Source-Sink Relations in Carrot, Daucus carota L: II. EFFECTS OF ROOT PRUNING ON CARBON ASSIMILATION AND THE PARTITIONING OF ASSIMILATES

Physiological responses to root pruning were investigated bycomparing ¹⁴CO₂ fixation rates, the partitioning of ¹⁴C-labelledassimilate, and soluble and insoluble carbohydrate levels inthe leaves of carrot plants following the removal of some ofthe fibrous roots, or fibrous roots and part of the tap root.Root pruning reduced ¹⁴CO₂ fixation by 28–45% but leafspecific activity (¹⁴C assimilation g-¹ leaf fresh weight) wasunchanged. The proportion of total assimilate exported to theroot system increased following root pruning and this was atthe expense of the developing leaves. In younger plants (wherethe tap root received 10% of the assimilate) the supply of ¹⁴Cto the tap root was maintained in spite of root pruning. However,shortening the tap root to 3 cm in older plants (in which 30%of the fixed 14C was normally exported to the developing storageorgan), reduced its sink capacity and resulted in slightly greaterretention of ¹⁴C in the mature leaves. Greater concentrationsof insoluble carbohydrate were found in the mature leaves followingroot pruning but soluble sugar content was unaffected. Onlysmall differences were observed in the distribution of ¹⁴C betweensoluble and insoluble carbohydrate fractions when plants werefed ¹⁴CO₂ several days after the root pruning operations. Thesephysiological responses were mainly associated with the removalof fibrous roots and support the view that the fibrous rootsystem is more important than the developing storage organ inregulating growth in young carrot plants.     

Effect of pruning or removal of in vitro formed roots on ex vitro root regeneration and growth in micropropagated grapes

Pruning or total removal of in vitro formed roots of grape (Vitis vinifera L.) plantlets at planting offered considerable ease and time economy compared to control plantlets with intact roots. The ex vitro establishment was unaffected by the practice with 90% or higher establishment in each treatment. When observed at 4 weeks from planting, growth was slightly affected by root pruning and significantly by root removal. However, both these treatments showed better adventitious root regeneration at the base compared to control plants, which showed elongation of in vitro formed roots with fewer new roots. Root pruning and root removal treatments reduced the influence of the number of in vitro formed roots on vigour of ex vitro plants since the number of new roots formed was independent of the roots initially present. Consequently, these plants showed more uniformity compared to control plants. With a better root system, root pruned plants showed faster subsequent growth. Root pruning at planting is recommended for easier handling and more uniform plants. This revised version was published online in June 2006 with corrections to the Cover Date.     

Morphological Changes in Wheat Seedlings (Triticum aestivum L.) following Root Anaerobiosis and Partial Pruning of the Root System

Morphological changes of roots and shoots following oxygen deficiencyin the root medium and after partial pruning of the root systemwere analyzed to obtain easily measurable parameters of theadaptive capacity of the root system against stress. Wheat seedlings(Triticum aestivum L. cv. Hatri) were cultivated on nutrientsolution which was either aerated or flushed with nitrogen,or were cultivated on flooded sand. On the third day after grainswelling in two pruning variants, roots 1–3 or 4–8were excised. Root anaerobiosis retarded longitudinal growth and biomass accumulationof the shoot and the seminal roots, and stimulated the developmentof adventitious roots. Partial removal caused a general compensativegrowth of the remaining roots under aerobic conditions. Root pruning plus anaerobiosis exceeded the compensatory capacityof the seedlings and thus caused a strong delay of elongationand biomass accumulation of both roots and shoots, includingdecrease of the root/shoot ratio. Roots became independent ofendosperm reserves on the seventh day under aerobic conditionsthough caryopses were not completely exhausted at this time.Additionally, oxygen deficiency delayed the reserve exhaustionprocess. Triticum aestivum L. cv Hatri, wheat, roots, growth analysis, morphology, anaerobiosis, strees, root pruning, compensatory capacity, caryopsis     

红外光谱技术在滇龙胆栽培方式选择上的应用

该研究采用傅里叶变换红外光谱结合化学计量学,对条播、撒播、剪根后移栽、扦插和剪枝后移栽的滇龙胆进行了分析,以筛选滇龙胆的最佳栽培方式。结果表明:(1)不同栽培方式的滇龙胆原始谱图在峰形、峰位和峰强上有一定差异;用小波去噪法对光谱进行优化处理并进行偏最小二乘判别分析(Partial least squares discriminant analysis,PLS-DA),能较好地区分不同栽培方式的滇龙胆样品,PLS-DA二维得分图显示同一栽培方式的样品聚在一起,表明相同栽培方式的滇龙胆化学组成和含量差异较小;播种滇龙胆样品(条播和撒播)距离较近,移栽滇龙胆样品(剪根、扦插和剪枝)距离较近,而播种和移栽滇龙胆样品距离较远,表明栽培方式对滇龙胆化学成分的积累有影响。(2)滇龙胆四种主要成分总含量大小依次是剪枝剪根撒播条播扦插,除剪根后移栽,剪枝后移栽滇龙胆中四种主要成分总含量显著高于其他栽培方式下的滇龙胆(P0.05),剪枝后移栽滇龙胆质量最佳。(3)以液相数据为参考值,采用正交信号校正—偏最小二乘回归模型预测不同栽培模式滇龙胆中龙胆苦苷、马钱苷酸、獐牙菜苦苷和当药苷的含量。校正集和验证集的决定系数(R2)均大于0.90,校正均方根误差、交叉验证均方差和预测均方根误差均小于1.65,模型相关性和预测效果好,该方法对红外光谱分析在中药领域的推广应用提供了参考。     

The ABC Transporter ABCG1 Is Required for Suberin Formation in Potato Tuber Periderm

The lipid biopolymer suberin plays a major role as a barrier both at plant-environment interfaces and in internal tissues, restricting water and nutrient transport. In potato (Solanum tuberosum), tuber integrity is dependent on suberized periderm. Using microarray analyses, we identified ABCG1, encoding an ABC transporter, as a gene responsive to the pathogen-associated molecular pattern Pep-13. Further analyses revealed that ABCG1 is expressed in roots and tuber periderm, as well as in wounded leaves. Transgenic ABCG1-RNAi potato plants with downregulated expression of ABCG1 display major alterations in both root and tuber morphology, whereas the aerial part of the ABCG1-RNAi plants appear normal. The tuber periderm and root exodermis show reduced suberin staining and disorganized cell layers. Metabolite analyses revealed reduction of esterified suberin components and hyperaccumulation of putative suberin precursors in the tuber periderm of RNA interference plants, suggesting that ABCG1 is required for the export of suberin components.     

EFFECTS OF ROOT PRUNING AT THE REGREENING STAGE ON DROUGHT TOLERANCE AND WATER USE EFFICIENCY OF WINTER WHEAT IN LATE GROWING STAGE

 通过盆栽试验研究了返青期根修剪对冬小麦(Triticum aestivum)后期耐旱性及水分利用效率的影响。在返青期设置了两个根修剪处理: 1)小剪根, 在植株一侧切去部分侧生根; 2)大剪根, 在主茎四周切去部分侧生根。不剪根者设为对照(CK)。研究结果显示, 两个根修剪处理均显著减少了小麦的根系, 但对根冠比没有显著影响。在花期, 两个根修剪处理的小麦旗叶的叶绿素荧光参数最大光化学效率(The maximum photochemical efficiency of PSⅡ, F_v/F_m)、 PSⅡ潜在活性 (PSⅡ potential activity, F_v/F_o)、实际光化学量子产量(Effective PSⅡ quantum yield, Φ_PSⅡ)、表观光合电子传递速率(Apparent rate of photosynthetic electron transport, ETR)、光化学淬灭系数( Coefficient of photochemical quenching, q_P)和非光化学淬灭系数(Coefficient of non-photochemical quenching, NPQ)值, 在停止供水7 d后, 均显著高于对照, 这表明根修剪小麦的耐旱性强于对照, 因此在干旱胁迫下有较高的光化学活性。小剪根处理在高水条件下对小麦产量无显著影响, 而在中度干旱条件下显著提高了小麦的产量, 因此, 小剪根处理显著提高了小麦的抗旱系数; 小剪根处理在高水分处理(土壤水分含量为田间持水量的85%)和中度干旱胁迫处理(土壤水分含量为田间持水量的55%)条件下, 均显著提高了小麦的水分利用效率。但大剪根处理由于严重影响了群体数量和产量, 水分利用效率和抗旱系数均没有提高。可见, 适当地减少根系有助于小麦的耐旱性和水分利用效率的提高。     

Growth rate, IAA and cytokinin content of wheat seedling after root pruning

Root pruning of wheat seedlings resulted in 2–10 foldincrease in the concentration of IAA in roots ascompared to the control level, which might beresponsible for the observed initiation of lateralroot growth. Cytokinin concentration in xylem sap wasdecreased initially by 60% by pruning in accordancewith the reduction in the hormone-producing organ.Nevertheless cytokinin content in the shoots remainedhigh, which might be due to a decrease in cytokinindecay registered in vitro. A subsequent increasein the export of cytokinins from roots up to thecontrol level demonstrated an elevated ability of thepruned organ to synthesise the hormone. The highcytokinin content in the shoots correlated with theability of the plants to maintain their transpirationand growth at the level of intact plants. Both IAA andcytokinins seem to be important in the restoration ofthe shoot/root balance disturbed by root pruning.     

茎瘤芥(榨菜)高效离体再生体系的建立

利用离体培养技术,以榨菜的3个主栽品种的子叶、带柄子叶和下胚轴为外植体,对影响榨菜植株再生的关键因素进行了优化.结果表明,培养25d不定芽的分化率最高;最佳不定芽诱导的激素组合为6-BA 2 mg/L+NAA 0.2 mg/L,其中带柄子叶不定芽的分化率达94.4％;“蔺市草腰子”和“郫县榨菜”容易诱导不定芽,而“永安小叶”不容易被诱导,说明基因型的影响比较大;不定根的最佳诱导激素为NAA 0.2 mg/L,其生根率为83.4％.榨菜高效离体再生体系的成功建立,为榨菜遗传转化、突变体筛选和种质资源保存打下了基础.