2013年我国近海赤潮引发种种类和分布研究

对2013年全国海洋环境监测1626个站位生物数据进行分析,以近2001年-2013年在我国近海海域明确发生赤潮的生物作为赤潮引发种,开展其种类组成和数量分布研究。结果显示：（1）我国近海赤潮引发种隶属于8门60种,其中产毒种12种,甲藻27种,硅藻20种。（2）2013年共监测到上述赤潮引发种50种,各监测站位种类数在0～25种之间,平均密度在84～1.16×1011个/m3之间,赤潮引发种种类数、密度分布大致都呈现近岸至远海递减的趋势,但在长江口及其邻近海域,呈现先增大后减小趋势。（3）2013年各海区赤潮引发种种类数在36～42之间,平均密度渤海〉东海〉南海〉黄海,多样性指数渤海〉黄海〉南海〉东海,都以中肋骨条藻（Skeletonema costatum）为优势种。（4）作为高频赤潮引发种,2013年中肋骨条藻（S.costatum）主要分布在我国近岸及近海海域;夜光藻（Noctiluca scintillans）在我国近岸、近远海海域都有分布;东海原甲藻（Prorocentrum donghaiense）主要分布在黄海和东海的近岸和近海海域;米氏凯伦藻（Karenia mikimotoi）分布较为广泛,但出现的站位较少;红色中缢虫（Mesodinium rubrum）、赤潮异弯藻（Heterosigma akashiwo）、红色赤潮藻（Akashiwo sanguinea）只在很少区域有分布。该研究结果有助于摸清我国近海海域赤潮生物种类和分布状况,可为赤潮的预警及其防灾减灾提供基础科学依据。

PEG引发种子对干旱逆境下甜玉米萌发及幼苗生长的生理调节

[目的]探究PEG引发种子对干旱胁迫下甜玉米出苗和幼苗形态建成的影响,揭示探究PEG引发种子对高粱的调控机理。[方法]试验采用盆栽试验,将PEG引发的甜玉米种子(金冠218)在土壤最适含水量的100%(CK)、80%、60%和40%供水下的种子萌发参数及幼苗生理特性进行了研究。[结果]PEG引发种子可增强甜玉米种子对干旱胁迫的抵御能力,显著增强干旱胁迫下种子的萌发能力,提高发芽率。另外,PEG引发种子处理可减少干旱胁迫下幼苗叶片叶绿素含量的下降、促进光合作用。在渗透调节方面,PEG引发种子幼苗叶片脯氨酸(P值=0.001^**)、游离氨基酸(P值=0.002^**)和电导率(P值=0.003^**)在干旱胁迫下差异显著性较大;PEG引发种子对SOD、CAT在播种后6~12天的差异显著性更大,同时可减缓O^2-的增加幅度。[结论]总体而言,PEG引发种子可作为甜玉米抗旱栽培的重要技术参考。

液相色谱-串联质谱法检测烘焙纸膜的印刷UV油墨中18种光引发剂残留量的不确定度评定

目的评估液相色谱-串联质谱法测定烘焙纸膜中印刷UV油墨中18种光引发剂残留量的不确定度。方法依据CNAS-GL006:2019《化学分析中不确定度的评估指南》,建立数据模型,识别不确定度来源,量化不确定的分量,最终合成烘焙蛋糕纸模中18种光引发剂的残留量测定结果的不确定度。结果蛋糕纸膜中18种光引发剂的含量为0.0432~0.0477mg/kg,合成的不确定度为0.0010~0.0026mg/kg,扩展不确定度为0.0020~0.0052mg/kg。结论 18种光引发剂残留量的测定过程中,标准工作曲线拟合所引入的不确定度占权重最大,样品称样量引入的不确定度可以忽略不计,通过T检验统计分析,回收率引入的不确定度不予考虑。

60Co-γ射线辐射对番茄种子萌发及早期幼苗生长的影响

用0～800 Gy剂量范围的60Co-γ射线对2个品种的番茄干种子和引发种(30%PEG-6000引发)进行辐射处理,采用发芽盒发芽法研究60Co-γ射线对番茄种子的萌发效应。结果表明,不同品种间对60Co-γ射线敏感性差异显著。黄盆栽抗辐射能力强于1479,主要表现在种子发芽率、萌发速度上。不同萌动状态番茄种子对辐射的敏感性也不同,经过30%PEG引发的引发种对辐射较干种子敏感。大剂量辐射后种子虽能萌发,但其幼苗生长受到明显的抑制,主要表现在胚根的分化和生长上。根据半致死剂量(LD 50)可以确定番茄种子适宜的辐射剂量,黄盆栽500～600 Gy,1479为400～500 Gy。

电子束对番茄种子的萌发效应

以干种子和经30%PEG引发的不同萌发状态的2个番茄品种‘黄盆栽'和‘1479'为材料,采用发芽盒发芽试验,研究了不同发芽状态和不同品种的番茄种子对电子束诱导的反应。结果表明,低剂量的电子束辐射对番茄种子的发芽率影响不明显,‘黄盆栽'在600 Gy时才对其发芽率产生一定的影响,而‘1479'则对电子束较为敏感,500 Gy时就对其发芽率产生影响。电子束对2种番茄种子萌发进程的影响较明显,经过30%PEG引发的种子对电子束反应比干种子敏感,当电子束达到600 Gy时2种番茄种子的胚根分化和生长受到严重影响,大部分萌发种子的根生长处于停滞阶段,呈"短胖根"状态。

Effect of Polyamine Priming on Chilling Tolerance of Lolium perenne during Seed Imbibition

[Objective] This study aimed to investigate the effect of potyamine priming on physiological and biochemical variations of Lolium perenne embryos and seed germination. [Method] With annual Lolium perenne （Diamond T and Grazing-8000） as experimental materials, after priming with 0.5 mmol/L putrescine （Put）, spermidine （Spd） and spermine （Spm） for 24 h and chilling imbibition at 5 ℃ for 12, 24, 36 and 48 h, the effect of Put, Spd and Spm priming on chilling tolerance and germination ability of annual Lolium perenne seeds during imbibition was investigated. [Result] Put, Spd and Spm priming improved the activities of peroxidase （POD）, catalase （CAT）, superoxide dismutase （SOD） and ascorbate peroxidase （APX） and content of soluble protein content under low temperature stress, significantly in-creased the germination rate, and shortened the average germination duration. After chilling imbibition for 48 h, compared with the control, the average germination rate of annual Lolium perenne seeds was improved by 15.5% and 12.0% after Put, Spd and Spm priming, and the average germination duration was shortened by 1.21 and 1.14 d. During seed imbibition, the chilling tolerance of Grazing-8000 was stronger than that of Diamond T. Overall, Put, Spd and Spm treatment could increase the chilling tolerance of annual Lolium perenne seeds during imbibition, and improve the germination ability of seeds under low temperature stress. [Conclusion] Results of this study provided theoretical basis for the application of seed priming technology in the production of annual ryegrass.

Fifty Years of Botanical Gardens in China

The development, distribution and features of one hundred and forty botanical gardens (BGs) in China are reported and their functions on research, conservation, display and utilization of biodiversity are summarized in this paper. The contributions to the social and economic development in the early stage of Chinese BGs with the researches of economic plant (tobacco), medicinal plant (yam) and wild fruit tree resources are evaluated. The theoretical and applied achievements in recent years in seed science, plant conservation, economic plant introduction, acclimatization and breeding are also described. A general scope of living plant collections in Chinese BGs is presented and the outstanding ones, including Magnoliaceae, Zingiberaceae, Cycadaceae, medicinal plants, Actinidia and Rhododendron are particularly mentioned. With special reference to Chinese penjing art garden and silicified wood garden, the development of scientific popularization and tourism in BGs is reviewed.

Effect of priming on the germination of Peltophorum dubium seeds under water stress

Peltophorum dubium seeds provided by Anhembi, SP were scarified in 98% H2SO4 for 15 min to overcome mechani-cal dormancy. Seeds were primed in solutions of 0.2% Captan at 10 C and 27C, PEG 6000 -1.0 MPa at 10C and 27C, 0.5 mol KNO3, 0.75 Mol KNO3, 1.0 Mol KNO3. Eight treatments including the primed seeds and nonprimed seeds, five replicates with 100 seeds for each treatment, were set to 15-cm-Petri dish with double filter paper moistened with testing solution PEG in refrigerator at 27C. For the experiments of all the groups, osmotic potential were 0.0, -0.2, -0.4, -0.6, -0.8, -1.0, -1.2, and -1.4 MPa. P. dubium seeds were also set to water stress experiment in rolled paper with PEG solutions from 0.0 to -1.0 M Pa. Germination percentage decreased with the increase of PEG concentration. Control group had a better germination percentage than other groups. Germination hardly occurred in PEG -1.4 MPa.

The Effect of Priming on Seed Performance of Chickpea （Cicer arietinum L.） under Drought Stress

In order to investigate the effect of priming on Chickpea seed performance under drought stress, a study was carried out at the Seed Research Laboratory of Razi University, Kermanshah, Iran. The experiment was a factorial with three factors arranged in a completely randomized design with four replications. The first factor was seed priming （control （untreated）, HB-101 （Completely organic herbal extracts, derived from the bark of dark cones）, KNO3 and distilled water）, the second was drought stress levels （0.0, -0.3, -0.6, -0.9, -1.2 MPa） and the third was chickpea cultivars （Arman and Azar）. Results indicated that for both cultivars germination percentage （GP）, mean germination rate （MGR）, radicle length （RL）, plumule length （PL） and seedling dry weight （SDW） were reduced when drought stress level were increased from 0 to -!.2 Mpa, although, the cultivars showed different responses to the increased drought stress level. For all of the traits under study, the best results due to the priming treatments were obtained at the drought stress levels higher than -0.6 or -0.9 MPa. So that, at the -1.2 MPa of drought stress level, GP, MGR, and SDW were increased 53.75, 0.49, and 13.85, respectively by HB -101 when compared with control. However, seeds primed with HB-101 showed better performance than those primed with distilled water and KNO3. In general, this study revealed that seed priming especially with HB-101 improved chickpea seed performance under drought stress condition. However, the improvements were more obvious at the higher levels of drought stress.

曹冲称象引发的五种后果

一天，有人献一头大象给曹操．曹操问百官．怎样知道大象的重量。众人纷纷摇头。这时曹操的小儿子、只有五岁的曹冲说：“我有办法。”他让人牵象上船，在船没入水中的地方刻上线，

Reinforcement as an initiator of population Jivergence and speciation

When hybridization results in reduced fitness, natural selection is expected to favor the evolution of traits that minimize the likelihood of hybridizing in the first place. This process, termed reinforcement （or, more generally, reproductive character displacement）, thereby contributes to the evolution of enhanced reproductive isolation between hybridizing groups. By enhancing reproductive isolation in this way, reinforcement plays an important role in the final stages of speciation. However, reinforcement can also contribute to the early stages of speciation. Specifically, because selection to avoid hybridization occurs only in sympatric populations, the unfolding of reinforcement can lead to the evolution of traits in sympatric populations that reduce reproduction between conspecifics in sympatry versus those in allopatry. Thus, reinforcement between species can lead to reproductive isolation--and possibly speciation-between populations in sympatry versus those in allopatry or among different sympatric populations. Here, I describe how this process can occur, the conditions under which it is most likely to occur, and the empirical data needed to evaluate the hypothesis that reinforcement can initiate speciation.

Seed priming with chitosan improves maize germination and seedling growth in relation to physiological changes under low temperature stress

Low temperature stress during germination and early seedling growth is an important constraint of global production of maize. The effects of seed priming with 0.25%, 0.50%, and 0.75% （w/v） chitosan solutions at 15 ℃ on the growth and physiological changes were investigated using two maize （Zea rnays L.） inbred lines, HuangC （chilling-tolerant） and Mo17 （chilling-sensitive）. While seed priming with chitosan had no significant effect on germination percentage under low temperature stress, it enhanced germination index, reduced the mean germination time （MGT）, and increased shoot height, root length, and shoot and root dry weights in both maize lines. The decline of malondialdehyde （MDA） content and relative permeability of the plasma membrane and the increase of the concentrations of soluble sugars and proline, peroxidase （POD） activity, and catalase （CAT） activity were detected both in the chilling-sensitive and chilling-tolerant maize seedlings after priming with the three concentrations of chitosan. HuangC was less sensitive to responding to different concentrations of chitosan. Priming with 0.50% chitosan for about 60-64 h seemed to have the best effects. Thus, it suggests that seed priming with chitosan may improve the speed of germination of maize seed and benefit for seedling growth under low temperature stress.

Behavioral effects of social challenges and genomic mechanisms of social priming： What＇s testosterone got to do with it？

Social challenges from rival conspecifics are common in the lives of animals, and changes in an animal＇s social environment can influence physiology and behavior in ways that appear to be adaptive in the face of continued social instability （i.e. social priming）. Recently, it has become clear that testosterone, long thought to be the primary mediator of these effects, may not always change in response to social challenges, an observation that highlights gaps in our understanding of the proximate me- chanisms by which animals respond to their social environment. Here, our goal is to address the degree to which testosterone me- diates organismal responses to social cues. To this end, we review the behavioral and physiological consequences of social chal- lenges, as well as their underlying hormonal and gene regulatory mechanisms. We also present a new case study from a wild songbird, the dark-eyed junco Junco hyemalis, in which we find largely divergent genome-wide transcriptional changes induced by social challenges and testosterone, respectively, in muscle and liver tissue. Our review underscores the diversity of mechani- sms that link the dynamic social environment with an organisms＇ genomic, hormonal, and behavioral state. This diversity among species, and even among tissues within an organism, reveals new insights into the pattern and process by which evolution may alter proximate mechanisms of social priming.