A new method for evaluating symplastic cadmium absorption in the roots of Solanum melongena using enriched isotopes 113Cd and 114Cd

Radioisotope techniques are well known as methods for evaluating symplastic ion absorption in roots. In the present study, a new method for evaluating symplastic cadmium (Cd) absorption in plant roots was developed using the enriched isotopes ¹¹³Cd and ¹¹⁴Cd. Seedlings of Solanum melongena were exposed to an enriched isotope solution of ¹¹³Cd at 25°C for 30 min. The roots were excised from each seedling and were then immersed in a cold buffer solution without Cd at 2°C for 120 min to suppress the metabolic activity of the roots. Finally, the roots were treated with a cold buffer solution containing enriched stable isotope ¹¹⁴Cd at 2°C for 120 min, whereby the apoplastically bound ¹¹³Cd was desorbed. We tested the validity of our method for evaluating symplastic Cd in roots compared with the conventional method based on differences in the amount of Cd absorbed at 2°C and 25°C using unlabeled Cd. There was no difference in the symplastic Cd content of the roots between the two methods. These results indicate that it is possible to evaluate the symplastic Cd content in roots using the enriched isotopes ¹¹³Cd and ¹¹⁴Cd.     

山西土石山区3种草本植物根拉拨特性

为了解山西省土石山区固土护坡草本植物根系拉拔特性,筛选拉拔力优势草本植物物种进行水土流失防治,通过开展根系原位拉拔力学试验,研究了3种典型草本植物香根草（Vetiveria zizanioides L.）、百喜草（Paspalum notatum Flugge）、黑麦草（Lolium perenne L.）根系拉拔力随根径和土层深度的变化规律。结果显示:3种草本植物根系拉拔力随着根径的增大而增加,且拉拔力与根径之间满足幂函数关系;整体上,根系拉拔力从大到小顺序表现为香根草 > 黑麦草 > 百喜草,而且三者之间差异显著;但在D≤0.4 mm和D>0.4 mm两个根径组下,黑麦草均表现出较好的拉拔力性能。在0—10 cm,10—20 cm两个土层间,香根草和百喜草两种植物根系拉拔力性能相似,而黑麦草单根拉拔力在表层土壤发挥效果优于下层土壤。从单根拉拔力方面出发,黑麦草在3种植物中可优先考虑用于固持浅表层土壤。试验探究了草本植物单根在不同根径组下和土层深度下的抗拔性能,研究结果可为山西省土石山区水土保持植物措施草本植物物种选择提供理论依据。     

基于iTRAQ技术的不同耐旱性甘薯苗期根系差异蛋白分析

为从蛋白水平揭示不同甘薯品种的苗期耐旱性差异,明确甘薯耐旱性生理机制,以耐旱性强的济薯21(JS)和耐旱性弱的济紫薯1(JH)为材料,采用PEG-6000模拟田间梯度干旱胁迫过程,采用i TRAQ技术开展甘薯苗期根系全蛋白组差异蛋白分析。结果表明,在4个比较组中,共筛选到567个差异表达蛋白,其中上调表达蛋白302个,覆盖率达20%以上的蛋白占鉴定总蛋白数的58.6%。GO分析发现,JS苗期根系差异蛋白主要集中在胁迫响应、非生物刺激响应等生物过程,而JH苗期根系差异蛋白主要集中在糖基复合物代谢和辅酶代谢等生物过程,干旱均主要影响2个品种的细胞质、细胞溶质等细胞组分,2个品种的差异蛋白分子功能均涉及催化活性、氧化还原酶活性等方面。KEGG分析发现,正常条件下,耐旱性强的较耐旱性弱的甘薯品种苗期根系中的过氧化物酶(POD)和肉桂醇脱氢酶(CAD)表达上调;在干旱条件下,次生代谢合成过程中的苯丙烷合成通路中上调表达的差异蛋白最多,耐旱性强的JS苗期根系中主要是胁迫响应相关蛋白,而耐旱性弱的JH苗期根系中主要是能量代谢相关蛋白。总之,干旱对甘薯苗期根系细胞质中次生物质合成和能量代谢影响较大,耐旱性强的甘薯苗期根系氧化还原酶类蛋白表达上调,不同耐旱性甘薯苗期根系在蛋白组学水平上响应干旱的生理调控途径存在明显差异。本研究为甘薯耐旱性品种生理鉴定和耐旱基因发掘提供了线索。     

2个不同耐旱性甘薯品种的苗期根系蛋白组差异分析

为从蛋白水平明确不同耐旱性甘薯品种苗期根系对干旱的应答机制,促进甘薯耐旱相关基因发掘,以耐旱性强的济薯21(JS)和耐旱性弱的济紫薯1(JZ)为材料,采用PEG-6000模拟田间梯度干旱胁迫过程,进行苗期根系蛋白的双向电泳和质谱分析。结果表明,基于60个不同耐旱性甘薯苗期根系的差异蛋白点分析,共鉴定出32个蛋白,其中有明确生理功能的有12个。在JZ中,下调表达的有3个肌动蛋白,上调表达的有2个60S核糖体蛋白,受体类蛋白激酶和真核翻译起始因子各1个;在JS中,下调表达的有1个类甜蛋白,上调表达的有2个过氧化物酶蛋白、1个磷酸果糖激酶家族蛋白和1个赤霉素调控蛋白。基因本体(GO)分析发现,干旱对甘薯苗期根系细胞质中糖和能量代谢过程影响较大,耐旱性强的品种苗期根系在抗氧化防御、能量代谢和信号转导方面占据优势。综上,不同耐旱性甘薯苗期根系在蛋白组学水平上响应干旱的生理调控途径存在明显差异,本研究结果为甘薯耐旱性品种选育提供了理论依据。     

化控种衣剂对大豆幼苗侧根原基的发生 和内源激素含量的影响

以垦农4号为试验材料,利用垂直板发芽试验研究了化控种衣剂 (HK)和常规种衣剂(ND)对大豆幼苗侧根原基发生的影响,并对侧根原基发生过程中植物内源激素含量的动态变化进行了相应的分析。结果表明：(1)种衣剂包衣后,侧根原基发生区长度明显比对照(不包衣的种子为对照,用CK表示)增加,从大到小依次为：HK＞ND＞CK;(2)种衣剂处理加快了侧根原基的发生进程,总的趋势是HK＞ND＞CK,经F检验表明,处理和对照差异极显著;(3)侧根原基的发生状况与侧根原基发生区内源激素的含量有一定的关系,侧根的发生是几种植物内源激素相互协调、综合作用的结果,其中生长素类物质在诱导侧根原基的发生过程中起主导作用;(4)应用种衣剂可以提高侧根原基发生的数量,缩短侧根原基的发生时间,其中以化控种衣剂效果最好。     

Effects of inbreeding on nodal root system morphology and architecture of white clover (<Emphasis Type="Italic">Trifolium repens</Emphasis> L.)

Plants of white clover (Trifolium repens L.) cultivar Crau, a self-fertile Crau genotype, and nine generations of inbred progeny were raised in sand culture in a glasshouse experiment. Digital images of the root systems were made and root morphological characteristics were determined on all the plants. Root architectural parameters were measured on the Crau parent and the S₁, S₄, S₆, and S₉ inbred lines. The clover roots became shorter and thicker with inbreeding but the number of root tips per plant was unchanged. Root architecture (branching pattern) was largely unaffected by inbreeding. It is concluded that inbreeding white clover will lead to shorter, thicker roots, and reduced nutrient uptake efficiency compared with the parent clover. The degree to which these deleterious traits are overcome during the development of F₁ hybrids needs to be determined.     

非独立悬架和独立悬架三轮汽车特性计算与比较

计算了非独立钢板弹簧后悬架和单横摆臂式独立后悬架三轮汽车的平顺性和操纵稳定性指标,通过比较可见,具有单横摆独立后悬架的三轮汽车有较好的平顺性和操纵稳定性,并建立了计算三轮汽车车架侧倾角的公式。     

Root architecture of sorghum genotypes differing in root angles under different water regimes

Plant root architecture offers the potential for increasing soil water accessibility, particularly under water-limited conditions. The objectives of this study were to evaluate the root architecture in two genotypes of sorghum (Sorghum bicolor (L.) Moench) differing in root angles and to assess the influence of different deficit irrigation regimes on root architecture. The response of two sorghum genotypes, ‘Early Hegari-Sart’ (EH; steep root angle) and ‘Bk7’ (shallow root angle) to four irrigation treatments was investigated in two replicated outdoor studies using large pots. The results indicated that EH possessed steeper brace and crown root angles, fewer brace roots, greater root biomass, and root length density than Bk7 at deeper soil depths (i.e., 15–30 and 30–45 cm) compared with a shallower depth (i.e., 0–15 cm). Across the soil profile, EH had greater root length density and length of roots of small diameter (<1 mm) than Bk7. Accordingly, EH showed more rapid soil-water capture than Bk7. Different levels of irrigation input greatly affected root architecture. Severe deficit irrigation (25% of full crop transpiration throughout the season) increased the angle and number of crown roots, root biomass, and root length density compared with 75 and 100% of full crop transpiration treatments. Consequently, root system architecture can be effectively manipulated through both genotypic selection and irrigation management to ensure optimal performance under different levels of soil available water.     

鲜食枣树体根部矿质元素含量的年动态变化

为了研究枣树根系年生长周期内矿质元素含量变化的情况,提高枣园的栽培管理技术,为科学合理的施肥提供一定的科学依据。对‘大白铃枣’、‘大瓜枣’、‘梨枣’、‘苹果枣’、‘晋矮3号’果实生长发育时期根系氮、磷、钾、钙、镁含量的变化规律进行研究。结果表明:植株生长初期,根系开始活动,活力不高,植株主要依靠体内贮藏营养物质来提供生长发育所需矿质元素,各枣品种大多数矿质元素的含量有不同程度地减少;植株生长中期通过根系从土壤中吸收大量矿质元素供新器官发育,根系中矿质元素变化较为复杂;在植株生长后期,大多数矿质元素均出现不同程度地增加并趋于稳定,开始为冬季休眠进行营养物质的贮藏。     

苹果银叶病的发生与防治研究

苹果银叶病的传播途径包括孢子侵染伤口传播、菌丝传播和根系传播.采用发明专利系列治疗药物注孔和灌根并用,按指示剂、治疗剂、排毒剂的顺序用药可以根治苹果银叶病.碱性药物波尔多液和石硫合剂有抵消药效的作用,不能用作保护剂.