荒漠植物不同功能群性状特征及其与土壤环境的关系

研究不同功能群植物性状差异及其与土壤环境关系对于充分掌握植物的环境适应策略至关重要。以艾比湖流域为研究区,利用荒漠植物的植物高度、叶片碳、氮、磷、硫、钾、钙、钠、镁含量等9个性状,将高、低土壤水盐环境下的植物划分为5个功能群,分析不同功能群的植物组成、性状差异及其与土壤环境的关系。结果表明：(1)不同土壤水盐环境下,其植物功能群组成不同;其中白刺、胡杨和罗布麻在两个土壤水盐环境下的功能群中均存在。(2)植物的功能性状在不同土壤水盐环境下也发生了适应性的变化。高土壤水盐环境下3个功能群的植物高度、叶片碳、氮、磷和钙含量显著高于低土壤水盐环境功能群(P<0.05);低土壤水盐环境下2个功能群的植物叶片硫、钠和镁含量高于高土壤水盐环境功能群。(3)土壤含水量(SVWC)、电导率(EC)、pH以及土壤磷含量对荒漠植物功能性状影响较大。在高土壤水盐环境下,EC、pH与植物高度,叶片钾、钙含量正相关,与叶片硫含量负相关;在低土壤水盐环境下,SVWC、EC与植物高度呈显著正相关(P<0.05)。研究有助于理解荒漠植物对极端环境的适应对策,为保护荒漠地区生物多样性提供理论依据。     

桑树磷脂酶MaPLA1-2D亚型4个基因的克隆与胁迫应答分析

磷脂酶(phospholipase)是一类在植物生长发育和胁迫应答中起重要调控作用的磷脂水解酶,也是一类重要的信号转导酶。而磷脂酶A1(PLA1)在植物应答生物胁迫和非生物胁迫中的功能研究鲜见报道。研究从桑树(Morus alba L.)中克隆了磷脂酶PLA1的1个亚型MaPLA1-2D基因,对其进行了序列分析、组织表达、胁迫诱导表达和蛋白亚细胞定位分析。结果表明,桑树PLA1-2D亚型基因包括4个成员,命名为MaPLA1-2D.1~MaPLA1-2D.4。4个基因在桑树根和叶中高水平表达,蛋白亚细胞定位在叶绿体。序列和进化分析表明MaPLA1-2D基因4个成员与拟南芥AtDAD1基因的保守结构域序列具有较高相似度且进化关系紧密。MaPLA1-2D基因4个成员的启动子含有多种胁迫应答顺式元件和激素响应元件;胁迫诱导表达模式分析表明MaPLA1-2D基因表达受干旱和脱落酸处理显著诱导。以上结果说明,MaPLA1-2D基因与拟南芥DAD同源,可能在桑树非生物胁迫应答中发挥重要功能。     

植物CBL-CIPK信号系统响应非生物胁迫的调控机制

钙调磷酸酶B蛋白(CBLs)及其互作蛋白激酶(CIPKs)组成的信号系统是非生物逆境响应的重要调控网络。CBL-CIPK系统通过磷酸化感应并解码Ca²⁺信号, 参与植物对非生物胁迫的应答调控。该文综述了CBLs和CIPKs结构、CBLs-CIPKs对不同底物磷酸化及其响应非生物胁迫调控机制的研究进展, 并展望了未来的研究方向, 以期为作物抗逆性遗传改良提供思路。     

土壤镉胁迫对檫木光合特性的影响

采用盆栽控制土培试验的方法,探讨不同浓度Cd胁迫对檫木(Sassafras tzumu Hemsl.)光合特性的影响。试验共设置5个镉处理水平(CK:0 mg·kg^-1,T1:5 mg·kg^-1,T2:20 mg·kg^-1,T3:50 mg·kg^-1,T4:100 mg·kg^-1)。分别测定每个处理下檫木叶片叶绿素含量、光合气体交换参数及光合—光响应曲线。结果表明:①随着处理Cd浓度的升高,檫木叶片叶绿素a、叶绿素b及叶绿素总量先增加后下降,T2处理下取达到最大值;②随着Cd浓度处理升高,叶片净光合速率(Pn)和气孔导度(Gs)均呈现下降趋势,各处理间胞间二氧化碳浓度(Ci)、蒸腾速率(Tr)差异不显著,檫木叶片光合速率主要受非气孔因素限制;③随着Cd浓度升高,檫木叶片的Pnmax(最大净光合速率)呈现显著下降趋势;T1处理条件下,檫木叶片的初始量子效率(α)值最大;檫木叶片的暗呼吸速率(Rd)、光补偿点(LCP)和光饱和点(LSP)总体呈现下降趋势。综上表明,在不同浓度Cd胁迫条件下,檫木叶绿素含量先增后减,在T1、T2处理下高于CK,体现了Cd胁迫“低促高抑”的效应;随着Cd浓度处理升高,光合气体交换参数及光合—光响应参数较CK总体上均呈现下降趋势,表明Cd胁迫对檫木光合作用产生了明显的抑制作用。     

Comparison of hinge microflow fields of bileaflet mechanical heart valves implanted in different sinus shape and downstream geometry

The characterization of the bileaflet mechanical heart valves (BMHVs) hinge microflow fields is a crucial step in heart valve engineering. Earlier in vitro studies of BMHV hinge flow at the aorta position in idealized straight pipes have shown that the aortic sinus shapes and sizes may have a direct impact on hinge microflow fields. In this paper, we used a numerical study to look at how different aortic sinus shapes, the downstream aortic arch geometry, and the location of the hinge recess can influence the flow fields in the hinge regions. Two geometric models for sinus were investigated: a simplified axisymmetric sinus and an idealized three-sinus aortic root model, with two different downstream geometries: a straight pipe and a simplified curved aortic arch. The flow fields of a 29-mm St Jude Medical BMHV with its four hinges were investigated. The simulations were performed throughout the entire cardiac cycle. At peak systole, recirculating flows were observed in curved downsteam aortic arch unlike in straight downstream pipe. Highly complex three-dimensional leakage flow through the hinge gap was observed in the simulation results during early diastole with the highest velocity at 4.7 m/s, whose intensity decreased toward late diastole. Also, elevated wall shear stresses were observed in the ventricular regions of the hinge recess with the highest recorded at 1.65 kPa. Different flow patterns were observed between the hinge regions in straight pipe and curved aortic arch models. We compared the four hinge regions at peak systole in an aortic arch downstream model and found that each individual hinge did not vary much in terms of the leakage flow rate through the valves.     

Temperature stress and survival ability of Mediterranean sclerophyllous plants

ABSTRACT

The Mediterranean climate with hot and dry summer periods, and low winter temperatures and episodic frosts in northern, altitudinal and continental districts, demands from evergreen broadleaved woody plants an adequate and flexible acclimation to the climatic constraints.

In this brief survey on some responses of Mediterranean sclerophylls to temperature stress, the following is presented and discussed: criteria for cold and heat limits of photosynthetic function; winter depression and summer photoinactivation of photosynthesis; peculiar patterns of tissue freezing of scleromorphous leaves and limits of frost resistance of various plant parts and ontogenetic stages; heat impairment of chloroplasts and thermotolerance of sclerophyllous species; survival capacity and recovery after damage. Risks of damage to plants in relation to stressful temperatures in Mediterranean regions are estimated. Cold stress and drought stress indices, according to Mitrakos (1980), have been applied to characterise different localities in Italy. Additionally, a heat stress index for the Mediterranean region is proposed. Future research topics are suggested.     

Characterization in biological traits of entomopathogenic nematodes isolated from North China

In a series of bioassays, thirty-one isolates that were collected from diverse locations in northern China and the laboratory kept isolate Steinernema carpocapsae All, were compared in order to select superior isolates for biological control of Bradysia odoriphaga. Virulence of the isolates against B. odoriphaga was significantly different among nematode isolates. Tolerance of infective juveniles (IJs) to heat, cold, and desiccation differed significantly among and within species. Strains from S. carpocapsae, S. ceratophorum, S. longicaudum, Heterorhabditis indica, and H. bacteriophora were more heat tolerant than strains from S. feltiae, S. hebeiense, S. monticolum, and H. megidis. Heterorhabditis megidis, H. bacteriophora, and S. carpocapsae showed better cold tolerance than the other species. High desiccation tolerance was recorded for S. carpocapsae, S. hebeiense, and S. ceratophorum. The infectivity of IJ of these species against Galleria mellonella larvae was not significantly different between the treated and non-treated IJ after the nematodes had been exposed to 40 °C for 2 h, −5 °C for 8 h or 25% glycerin for 72 h. Nematode survival was significantly affected by exposure time and IJ concentration when exposed to 40 °C or −5 °C. All nematode isolates lost their infectivity against G. mellonella after exposure to −5 °C for 16 h, except for H. megidis LFS10, which had a low infectivity of 3.3%. A hierarchical classification analysis classified the isolates in four main clusters. The fourth cluster, composed of 13 isolates, grouped the isolates that scored well for most traits.     

Expression and signal regulation of the alternative oxidase genes under abiotic stresses

Plants in their natural environment frequently face various abiotic stresses, such as drought, high salinity, and chilling. Plant mitochondria contain an alternative oxidase （AOX）, which is encoded by a small family of nuclear genes. AOX genes have been shown to be highly responsive to abiotic stresses. Using transgenic plants with varying levels of AOX expression, it has been confirmed that AOX genes are im- portant for abiotic stress tolerance. Although the roles of AOX under abiotic stresses have been extensively studied and there are several excellent reviews on this topic, the differential expression patterns of the AOX gene family members and the signal regulation of AOX gene（s） under abiotic stresses have not been extensively summarized. Here, we review and discuss the current progress of these two important issues.