红叶甜菜-花生和油葵-花生轮作修复土壤Cd的能力

利用生物量高的经济作物进行轮作，可在加快修复土壤Cd污染进程的同时获得一定的经济效益。本研究在长沙市望城区群力村Cd轻度污染的土壤进行冬季种植红叶甜菜、夏季复种植花生和春末种植油葵、夏季复种植花生的轮作模式试验，探究重金属修复潜力。结果表明：花生、油葵、红叶甜菜各部位Cd富集系数除花生果实外均大于1，对Cd均有较强的富集能力。油葵-花生、红叶甜菜-花生轮作模式种植一季可提取土壤Cd总量分别为40.80 g·hm^-2和53.34 g·hm^-2。红叶甜菜-花生轮作将土壤Cd含量由0.316 mg·kg^-1降至0.286 mg·kg^-1，油葵-花生轮作一季将土壤Cd含量由0.316 mg·kg^-1降至0.283 mg·kg^-1。研究表明，红叶甜菜-花生、油葵-花生轮作模式均对土壤重金属Cd有较好的修复潜力。     

Histological and proteomics analysis of apple defense responses to the development of Colletotrichum gloeosporioides on leaves

Colletotrichum gloeosporioides (Penz.) Penz. & Sacc. is an important fungal pathogen known to cause glomerella leaf spot (GLS). The objective of this study was to analyze the infection of C. gloeosporioides on leaves of apple cv. Fuji (resistant) and cv. Gala (susceptible) and apply proteomics techniques to study the apple defense responses 48 h after inoculation (h.a.i.). On both of cultivars, C. gloeosporioides started to germinate at 3 h.a.i. on adaxial surface and produced appressoria adhering to epidermal cell juxtapositions. Histological analysis showed more stratified parenchyma in leaves of cv. Fuji than cv. Gala associated with differences in the chemical composition of cell walls. Total and unique proteins expressed by cvs. Fuji and Gala at 3, 12, 24 and 48 h.a.i. were detected by comparative proteomes analysis. A total of 42 unique proteins expressed at 24 and 48 h.a.i. were identified by MALDI/TOF mass spectrometry, and most of these proteins were identified as directly involved in defense responses.     

43个柑橘品种（品系/株系）受枸橘潜叶甲为害程度调查研究

采取随机抽样法，调查枸橘潜叶甲对枳、柚、柑、桔、甜橙、枸椽、杂柑及金柑等8大类共43个品种（品系/株系）为害虫情指数，其结果表明，不同柑橘种类或不同柑橘品种或品系均可受枸橘潜叶甲为害，但为害的程度存在着差异性，枳、柚受害最重，金柑、桔、杂柑类受害最轻，对其差异产生的原因亦作了初步分析。     

秃杉大径级用材林抚育采伐技术的研究

结合国家林业行业标准《秃杉速生丰产林》编制的要点,对秃杉大径级用材林抚育采伐进行了专项调查和研究;结合具体实际培育过程,有的放矢地提出了培育目标、分区生长指标以及抚育采伐的原则、对象和范围,为秃杉大径级用材林的培育提供了技术保障。     

卧式泵站直管式出水流道型线变化水力性能数值模拟

基于不可压缩流体的连续性方程和雷诺时均N-S方程,采用CFD技术对卧式泵站直管式出水流道进行数值模拟计算,通过改变出水流道型线,分析出水流道内部流动特性及水力损失影响。研究表明,出水流道当断面形状设计为圆变方,在平面方向和立面方向均逐渐扩大的形式时,流道内流态最好;将进水流道断面在平面方向设计为先扩散后平直,而在立面方向均匀扩大的形式时,流态较好;而将断面在立面与平面方向均设计成先扩散后平直时,出水流道流态最差。     

水稻半外卷叶突变体sol1的表型分析与基因定位

适度卷曲有利于提高水稻叶片的光合效率,增加植株光合产物的有效积累量。我们利用甲基磺酸乙酯(EMS)处理籼型水稻保持系西农1B,获得一个稳定遗传的水稻半外卷叶突变体。该突变体从十叶期开始各叶片逐渐向外卷曲直至半卷状,并伴随茎秆半矮化和叶片披垂,暂被命名为semi-outcurved leaf 1(sol1)。与野生型(WT)相比,sol1的叶片卷曲指数均达到30%以上(P<0.01);倒一、倒二、倒三、倒四节节间长度和穗长极显著缩短,倒一、倒二、倒三叶的叶夹角显著或极显著增加;有效穗数、千粒重、每穗实粒数、结实率显著或极显著下降,一次枝梗数则增加11.3%(P<0.05)。sol1的蒸腾速率、胞间CO2浓度、气孔导度显著高于野生型。石蜡切片显示,sol1倒一叶的泡状细胞体积变小,数量显著增多,表皮细胞体积略微增大。遗传分析表明,sol1的半外卷叶性状受1对隐性核基因调控,定位于6号染色体标记JY6-3和JY6-10之间165 kb的物理范围内,共含15个注释基因。qRT-PCR结果表明,与泡状细胞相关的内卷基因和外卷叶基因RL14、Roc5、REL1在突变体sol1中呈不同程度的上调,NRL、BRD1、OsHox32、ADL1、LC2则呈不同程度的下调。研究结果为SOL1基因的克隆和功能研究奠定了基础。     

南瓜银叶突变体48a的表型特征及其遗传学分析

南瓜银叶突变体48a是在嫩食型中国南瓜中分离筛选到的稳定遗传自交系,银色叶不仅可以作为标记性状应用到育种中,还可为南瓜抗虫、抗病、耐寒等一系列研究提供重要的材料基础。笔者对银叶突变体的表型特征及叶片的解剖结构进行鉴定分析,发现植株整体长势、熟性与野生型无明显差异;成熟叶片正面全部呈银灰色,叶绿素含量明显降低,叶片上表皮细胞与栅栏细胞间明显剥离,存在明显的空隙。利用突变体48a和野生型49a南瓜自交系构建的六世代遗传群体,调查发现F2的绿叶与银叶符合3∶1的分离比,回交群体BC1P1分离比符合1∶1,表明南瓜银色叶性状由单隐性基因控制。     

The mechanical roles of the clasping leaf sheath in cereals: Two case studies from oat and wheat plants

Stem lodging is a common problem in cereal crop production and a main constraint for grain yield improvement. The leaf sheath that surrounds and protects the hollow internodes of stem could provide the plants with a great physical support. However, this biomechanical function has been ignored for several decades in cereal crops. This study aimed to examine the biomechanical properties of basal stem internodes and lodging susceptibility of the whole plants with or without the clasping leaf sheath in wheat (Triticum aestivum L.) and oat (Avena sativa L.) among different genotypes and agronomic practices (including planting densities and nitrogen application rates). The main objective was to quantify the mechanical role of the leaf sheath in oat and wheat crops by a “safety factor” method. On average, the leaf sheath contributed 40%, 68% and 38% of the overall stem bending strength, flexural rigidity and safety factor, in oat, while it accounted for 11%, 24% and 10%, respectively, in wheat plants. The significant contribution of the leaf sheath is due to its vital role in enlarging the peripheral position (i.e., second moment of area) and stiffness (i.e., Young's modulus). The contribution ratios (%) were found to be higher in oat than in wheat plants, due to the greater mass density of leaf sheath and more proficient/prevailing stay-green capability in oat genotypes. This study emphasizes the important mechanical role of clasping leaf sheath on stem internodes of cereals and indicates that the stay-green trait of the leaf sheath can be exploited to design appropriate varieties with improved lodging resistance and great yield potential.     

定苗时间对峦大杉1年生苗木生长的影响

探究定苗时间对峦大杉苗期生长动态与生长节律影响,优化定苗时间,为育苗提供理论与技术支持。以当年生峦大杉幼苗为试验材料,开展不同定苗时间试验,采用定株观测并应用Logistic方程拟合生长动态的方法,分析定苗时间对苗木生长动态和生长节律的影响效应。研究结果表明,定苗时间影响苗高地径生长效应随处理时间推移而显现,是个动态过程。Logistic方程能够很好地拟合峦大杉苗木生长。定苗时间显著影响苗高、地径线性生长速率、最大线性生长速率和线性生长量,但对苗高地径线性生长始期、终期、线性生长持续期无显著性影响;苗高生长初期定苗较其他处理显著提高苗高和地径的线性生长量线性生长速率、最大线性生长速率,建议增加速生期的养分和水分供给以提高苗木质量。峦大杉合理定苗时间是苗高生长初期（6月30日）。     

Identification of a phytoplasma associated with pomegranate little leaf disease in Iran

During 2012–2014 surveys for the presence of phytoplasma diseases in Fars province (Iran), pomegranate little leaf symptoms were observed in several orchards in Khafr and Neyriz areas. Samples collected from symptomatic plants positively reacted in nested PCR assays using P1/P7 followed by R16F2n/R16R2 primer pairs producing the expected 1,250 bp DNA fragments. Real and virtual RFLP analysis showed that the sequences of phytoplasma strains from Khafr and Neyriz (KPLL and NPLL strains, respectively) were identical to each other and belong to 16SrII phytoplasma group, subgroup D. Phylogenetic analysis of the R16F2n⁄R16R2 DNA region confirmed that KPLL and NPLL phytoplasmas were enclosed in the same clade as other 16SrII-D subgroup phytoplasmas. This is the first reported occurrence of a 16SrII phytoplasma infecting pomegranate trees.