孑遗植物四合木(Tetraena mongolica)异地保护条件下的气候生物学特征与光合效率

为了廓清异地保护条件下孑遗濒危植物四合木(Tetraena mongolica)的气候生物学特征、光合生理生态适应性及生境适宜性,应用1971—2011年的地面气象资料进行了不同试验区的气候生物图解与分析,测定了四合木及其伴生种白刺(Nitraria tangutorum)的叶片气体交换参数及光合效率。结果表明:①四合木自然分布区(内蒙古乌海地区)与异地保护区的气候生物学特征存在明显分异;②当年种植的四合木实生苗的生长量大小依次为:乌海四合木核心区实生苗>鄂尔多斯实生苗>阿拉善实生苗;③自然条件下,5个处理的净光合速率(Pn)依次为阿拉善移植的四合木成株(24.05±1.68μmol·m-2·s-1)>乌海客土栽培的四合木(19.97±1.05μmol·m-2·s-1)>乌海栽培的四合木实生苗(18.96±1.04μmol·m-2·s-1)>鄂尔多斯栽培的四合木实生苗(16.64±0.92μmol·m-2·s-1)>阿拉善栽培的四合木实生苗(16.48±0.13μmol·m-2·s-1);异地保护试验区栽培的四合木实生苗的Pn没有明显差异(p≥0.05),即原生境条件下栽培的四合木实生苗的Pn较高。同时,异地保护栽培四合木实生苗中,鄂尔多斯栽培的四合木实生苗的Pn>阿拉善栽培的四合木实生苗。从四合木光合作用特征中的Pn、蒸腾速率、气孔导度和胞间CO2浓度、气候生物学特征和生长量等综合研究结果可以推断,从原生境区东移的实生苗迁地保护,使四合木具有更高的生理生态适宜性和环境适应性。

高CO2浓度和固氮菌对斜纹夜蛾幼虫食物利用效率的影响

"补偿取食"假说认为CO2浓度升高后植食性昆虫会增大取食量以弥补植物组织中氮素营养的不足。但实证研究并非都支持该假说。用人工智能气候箱设置CO2浓度(390μL/L和780μL/L)和固氮菌(有、无)等2因素4处理,种植菜豆饲喂刚蜕皮进入4龄的斜纹夜蛾幼虫,测定其取食和食物利用效率。协方差分析结果表明,CO2浓度与固氮菌互作对斜纹夜蛾幼虫取食量具有显著影响,在无固氮菌处理下,斜纹夜蛾幼虫对高CO2浓度处理的菜豆取食量明显高于当前CO2浓度处理的;而在有固氮菌处理下,斜纹夜蛾幼虫对高CO2浓度下菜豆的取食量又比当前CO2浓度处理下的低。固氮菌对斜夜蛾4龄幼虫最终体重没有显著影响,但高CO2浓度处理的4龄幼虫终体重大于当前CO2浓度处理的幼虫。CO2浓度、固氮菌及其互作对斜纹夜蛾幼虫的相对取食率(RCR)和相对生长率(RGR)具有显著影响,在当前CO2浓度处理下,斜纹夜蛾4龄幼虫的RCR和RGR在有、无固氮菌处理之间没有显著差异;但在升高CO2浓度下,无固氮菌处理下的RCR和RGR显著大于有固氮菌处理。CO2浓度及其与固氮菌互作显著影响近似消化率(AD),在无固氮菌处理下,CO2浓度升高使AD增大;但在有固氮菌、CO2浓度升高下,其AD略有降低。CO2浓度和固氮菌双因素处理对消化食物转化率(ECD)无显著影响。研究结果支持"补偿取食"假说。

CO_2浓度升高对黏虫的取食选择和能量贮存的影响

采用选择性和非选择性方法测定了黏虫幼虫对高CO2浓度下生长的小麦叶片的选择性;并观察了在高CO2浓度下连续生长至第7代后的幼虫存活情况,测定了老熟幼虫体内保护酶活性以及成虫能源贮存。结果表明:在非选和可选情况下,3龄和4龄幼虫偏好当前CO2(390μL.L-1)条件下生长的小麦叶片,取食量比高CO2(780μL.L-1)条件下提高26.7%和30.3%(非选择性测定)或是高CO2下的4.2倍和1.6倍(选择性测定),6龄幼虫未表现出显著的取食偏好。高CO2处理下连续饲养至第7代的幼虫孵化至化蛹的存活率显著低于当前CO2处理,主要差异表现在4龄之后,但老熟幼虫体内的保护酶活性和蛋白质含量在当前和升高CO2处理之间没有显著差异。升高CO2处理可显著降低第7代成虫甘油三酯含量和体干质量,使体内水分含量明显增多;但对肌肉干质量和糖原无显著影响。上述结果说明:CO2浓度升高对黏虫幼虫存活和成虫迁飞所需能量贮存具有不利影响。

Impacts of global warming on marine zooplankton

Global warming has been being a serious issue since 1980, and it impacts environment and biosphere. Here, we reviewed the physiological and ecological responses of marine zooplankton which is an important component of biosphere to the global warming. Much research on physiological changes in response to different temperature is given to discuss this issue. Furthermore, we focused on ecological changes of zooplankton to global warming and several indices such as abundance, biomass, biodiversity and biogeographic boundary are enumerated. Phenological changes of zooplankton were presented, followed by the prospects of this subject, viz. observing more functional groups, more concerning on zooplankton in tropical region and investigation on a species-level zooplankton system.

Biological Basis & Microclimate Effects of Intercropping in Jujube Field

Objective] This study aimed to explore the biological basis and microcli-mate effects in intercropping jujube orchard. [Method] From 2009 to 2011, jujube was intercroped with wheat, peanut, soybean, garlic, watermelon, vegetables etc. By fixed observation and simultaneous mobile observation, the field microclimate factors such as the air temperature, surface temperature, air relative humidity, wind speed, etc. were measured, with mono-crop farmland as the control. [Result] The competi-tion relationship existed between jujube trees and the intercropped plants for re-sources such as il umination, fertilizer, and water; however there were differences in phenological phases and the critical periods in needing for water, fertilizer and il u-mination between jujube and intercropped plants. Meanwhile, there was significant difference （P〈0.05） in the variation of agricultural microclimate environment in jujube field compared with that in control farmland. Compared with the control, the air tem-perature in intercropping jujube orchard was reduced by 0.2 to 0.7 ℃, the earth surface temperature reduction ranged from 2.1 to 2.5 ℃, the relative air humidity increased by 3.7% to 6.8% and the wind speed decreased by 0.2 to 0.4 m/s. [Conclusion] Al above results showed that intercropping in jujube orchard could be promoted in central China and northern China areas.

Adjustment of the annual cycle to climatic change in a long-lived migratory bird species

Climate change has advanced the phenology of many organisms. Migratory animals face particular problems because climate change in the breeding and the wintering range may be asynchronous, preventing rapid response to changing conditions. Advancement in timing of spring migration may have carry-over effects to other parts of the annual cycle, simply because advancement of one event in the annual cycle also advances subsequent events, gradually causing a general shift in the timing of the entire annual cycle. Such a phenotypic shift could generate accumulating effects over the years for individuals, but also across generations. Here we test this novel hypothesis of phenotypic response to climate change by using long-term data on the Arctic tern Sterna paradisaea. Mean breeding date advanced by almost three weeks during the last 70 years. Annual arrival date at the breeding grounds during a period of 47 years was predicted by environmental conditions in the winter quarters in the Southern Ocean near the Antarctic and by mean breeding date the previous year. Annual mean breeding date was only marginally determined by timing of arrival the current year, but to a larger extent by arrival date and breeding date the previous year. Learning affected arrival date as shown by a positive correlation between arrival date in year （i ＋ 1） relative to breeding date in year （i） and the selective advantage of early breeding in year （i）. This provides a mechanism for changes in arrival date being adjusted to changing environmental conditions. This study suggests that adaptation to changing climatic conditions can be achieved through learning from year to year

取食干旱胁迫小麦对黏虫及其寄生性斑痣悬茧蜂生长发育的影响

[目的]本研究旨在探究取食干旱胁迫下小麦的黏虫及其幼虫寄生性斑痣悬茧蜂的生长发育表现。[方法]采用聚乙二醇(PEG6000)模拟干旱条件,设置不同干旱胁迫水平(0、0.05、0.10和0.20 g·mL^(-1)PEG6000)处理盆栽小麦造成生理性干旱,然后接黏虫初孵幼虫于叶上取食直至成虫羽化,观察其生活史和形态特征;并以3龄幼虫为寄主供斑痣悬茧蜂寄生,观察寄生蜂生活史和形态特征。[结果]干旱胁迫小麦对黏虫的发育历期、存活率、蛹体鲜质量、成虫体干质量等有显著影响。与对照相比,高水平干旱胁迫(0.20 g·mL^(-1)PEG6000)下黏虫幼虫的发育历期延长4.60%,存活率降低21.00%,蛹体鲜质量下降11.76%,成虫体干质量减小33.33%。干旱胁迫处理对斑痣悬茧蜂子代蜂的卵+幼虫发育历期、茧鲜质量和雌成虫后足胫节长度具有显著影响。低水平干旱胁迫(0.05 g·mL^(-1)PEG6000)下显著延长斑痣悬茧蜂子代蜂幼虫的发育历期,从对照的9.55 d延长至10.15 d,但高水平干旱处理的发育历期与对照无显著差异;与对照相比,高水平干旱胁迫处理的蜂茧鲜质量下降0.31 mg,雌成虫后足胫节长度缩短近0.04 mm,而低水平干旱处理与对照无显著差异。[结论]干旱胁迫小麦对取食叶片的黏虫生长发育具有不利影响,并通过黏虫幼虫寄主对斑痣悬茧蜂子代蜂的生长发育产生间接负面影响。

Paleoclimate Study of Mountain Ecosystems by Multiple Group Biological Analysis

Methodological problems of climatic reconstruction for different periods of Holocene are discussed on the basis of a multiple group biological analysis on peat-sapropel sediments. The possibility of biological analysis is exemplified by the paleoclimatic reconstruction for Carpathian and Altai Mountain ranges. For the ＂Skolevsky Beskidy＂ national park of Carpaty the paleoclimatic scenarios have been drown up aiming at the more precise definition of climatic conditions for the period of mass mountain slope terracing. The stability of terrace systems of various designs in the current climatic conditions has been assessed. It is shown that during periods of humid climate the terraces, whose designs have been focused on drainage, were built. In periods of dry and warm climate the terrace systems capable of accumulating water were built. Both these types of terrace systems are destroyed in nowadays. Only those terrace systems are stable which were adjusted by their builders to contrast variations of precipitation. For Western Altais the paleoclimatic scenario has been done to forecast the safety of the Bronze Age kurgans （burial earth mounds） with permafrost inside the construction. In the Altay region during the Holocene it has revealed two periods of sharp cooling, the peaks of which occurred in the intervals 4500- 4300 and 2500-2300 years pronounced climatic drying ago, and two periods of 4900-4700 and 130-70 years ago. Depletion of the algae composition in the layer corresponding to the last period of drying climate indicates a very sharp change in the parameters of moisture and turning the lake into a dry swamp. Periods of cold weather may have contributed to the formation of special ritual traditions of the Sakan tribes that require the frozen ground to bury the dead. The later climate fluctuations identified have not affected the safety of permafrost in burial mounds constructed in the V-III cc BC.

The Bioclimate in the Steppe of Tlemcen （Oran, Western Algeria）

The last decade was marked by the special interest in flora, biological characteristics, its adaptation to climate fluctuations and the influence of human activities. The steppe climate is generally characterized by its heterogeneity. The lower semi-arid： 300 mm to 400 mm per year; The arid higher： 200 mm to 300 mm per year; The arid lower： between 100 mm and 200 mm per year. Its wide analysis of a region is based on data provided by weather stations; a summary of the climate study area was analyzed with representative stations （Ain Sefra, El Aricha, Ras el-Ma, Saf-Saf）. This steppe is in various states of degradation, consisting of Stipa tenacissima, Artemisia herba alba, Biscutella didyma, Spartium junceum and Lepidium glastifolium, etc..

The climatic impacts of land use and land cover change compared among countries

Land use and land cover change(LULCC) strongly influence regional and global climate by combining both biochemical and biophysical processes. However, the biophysical process was often ignored, which may offset the biogeochemical effects, so measures to address climate change could not reach the target. Thus, the biophysical influence of LULCC is critical for understanding observed climate changes in the past and potential scenarios in the future. Therefore, it is necessary to identify the mechanisms and effects of large-scale LULCC on climate change through changing the underlying surface, and thus the energy balance. The key scientific issues on understanding the impacts of human activities on global climate that must be addressed including:(1) what are the basic scientific facts of spatial and temporal variations of LULCC in China and comparative countries?(2) How to understand the coupling driving mechanisms of human activities and climate change on the LULCC and then to forecasting the future scenarios?(3) What are the scientific mechanisms of LULCC impacts on biophysical processes of land surface, and then the climate?(4) How to estimate the contributions of LULCC to climate change by affecting biophysical processes of land surface? By international comparison, the impacts of LULCC on climate change at the local, regional and global scales were revealed and evaluated. It can provide theoretical basis for the global change, and have great significance to mitigate and adapt to global climate changes.

Forecasting Helicoverpa populations in Australia： A comparison of regression based models and a bioclimatic based modelling approach

Long-term forecasts of pest pressure are central to the effective managementof many agricultural insect pests. In the eastern cropping regions of Australia, seriousinfestations of Helicoverpa punctigera (Wallengren) and H. armigera (Hiibner)(Lepidoptera:Noctuidae) are experienced annually. Regression analyses of a long series of light-trap catches ofadult moths were used to describe the seasonal dynamics of both species. The size of the springgeneration in eastern cropping zones could be related to rainfall in putative source areas in inlandAustralia. Subsequent generations could be related to the abundance of various crops inagricultural areas, rainfall and the magnitude of the spring population peak. As rainfall figuredprominently as a predictor variable, and can itself be predicted using the Southern OscillationIndex (SOI), trap catches were also related to this variable. The geographic distribution of eachspecies was modelled in relation to climate and CLIMEX was used to predict temporal variation inabundance at given putative source sites in inland Australia using historical meteorological data.These predictions were then correlated with subsequent pest abundance data in a major croppingregion. The regression-based and bio-climatic-based approaches to predicting pest abundance arecompared and their utility in predicting and interpreting pest dynamics are discussed.

The Ecosystem Condition of Basin of the Trans Border River Argun in Zabaikalsky Krai, Russia

Cyclic climatic changes, as well as the press of anthropogenic impact, affect ecosystems of the river Argun basin. Specialization of basin management is industrial and agricultural. The main impact is connected with the development of mining companies （including the mining of ore and placer gold）, energy facilities, and the formation of reservoirs in the basin of rivers： the Argun -- the Hailar. As a result of natural and anthropogenic pressure, the limiting factor for ecosystem exploitation in this basin is water resources （water deficiency and its quality）.

Community responses to extreme climatic conditions

Species assemblages and natural communities are increasingly impacted by changes in the frequency and severity of extreme climatic events. Here we propose a brief overview of expected and demonstrated direct and indirect impacts of extreme events on animal communities. We show that differential impacts on basic biological parameters of individual species can lead to strong changes in community composition and structure with the potential to considerably modify the functional traits of the community. Sudden disequilibria have even been shown to induce irreversible shifts in marine ecosystems, while cascade effects on various taxonomic groups have been highlighted in Mediterranean forests. Indirect effects of extreme climatic events are expected when event-induced habitat changes （e.g. soil stability, vegetation composition, water flows altered by droughts, floods or hurricanes） have differential consequences on species assembled within the communities. Moreover, in increasing the amplitude of trophic mismatches, extreme events are likely to turn many systems into ecological traps under climate change. Finally, we propose a focus on the potential impacts of an extreme heat wave on local assemblages as an empirical case study, analysing monitoring data on breeding birds collected in France. In this example, we show that despite specific populations were differently affected by local temperature anomalies, communities seem to be unaffected by a sudden heat wave. These results suggest that communities are tracking climate change at the highest possible rate [Current Zoology 57 （3）： 406-413, 2011].

Impacts of climate change on the ecotoxicology of chemical contaminants in estuarine organisms

Global climate change effects will vary geographically, and effects on estuaries should be independently considered. This review of the impacts of climate change on the ecotoxicology of chemical contaminants aims to summarize responses that are specific to estuafine species. Estuarine organisms are uniquely adapted to large fluctuations in temperature, salinity, oxygen, and pH, and yet future changes in climate may make them more susceptible to chemical contaminants. Recent research has hig- hlighted the interactive effects of chemical and nonchemical stressors on chemical uptake, metabolism, and organism survival. Assessments have revealed that the nature of the interaction between climate variables and chemical pollution will depend on es- tuarine species and life stage, duration and timing of exposure, prior stressor exposure, and contaminant class. A need for further research to elucidate mechanisms of toxicity under different abiotic conditions and to incorporate climate change factors into toxicity testing was identified. These efforts will improve environmental risk assessment of chemical contaminants and manage- ment capabilities under changing climate conditions [Current Zoology 61 （4）： 641-652, 2015].

Forecasting the impacts of chemical pollution and climate change interactions on the health of wildlife

Global climate change is impacting organisms, biological communities and ecosystems around the world. While most research has focused on characterizing how the climate is changing, including modeling future climatic conditions and predicting the impacts of these conditions on biodiversity, it is also the case that climate change is altering the environmental impacts of chemical pollution. Future climate conditions are expected to influence both the worldwide distribution of chemicals and the toxi- cological consequences of chemical exposures to organisms. Many of the environmental changes associated with a warming global climate （e.g., increased average - and possibly extreme - temperatures; intense periods of drier and wetter conditions; reduced ocean pH; altered salinity dynamics in estuaries） have the potential to enhance organism susceptibility to chemical toxicity. Addi- tionally, chemical exposures themselves may impair the ability of organisms to cope with the changing environmental conditions of the shifting climate. Such reciprocity in the interactions between climate change and chemicals illustrates the complexity inherent in predicting the toxicological consequences of chemical exposures under future climate scenarios. Here, we summarize what is currently known about the potential reciprocal effects of climate change and chemical toxicity on wildlife, and depict current approaches and ongoing challenges for incorporating climate effects into chemical testing and assessment. Given the rapid pace of new man-made chemistries, the development of accurate and rapid methods to evaluate multiple chemical and non-chemical stressors in an ecologically relevant context will be critical to understanding toxic and endocrine-disrupting effects of chemical pollutants under future climate scenarios [Current Zoology 61 （4）： 669-689, 2015].