长白赤松和红松土壤微生物活性对高浓度CO_2的响应(英文)

研究了2003 年夏季长白赤松和红松土壤微生物活性对高浓度CO2的响应规律。结果表明,长白赤松和红松土壤细菌数量受高浓度CO2影响显著(p < 0.05)减少;与对照箱(350 μmol ·mol-1 CO2)和裸地(350 μmol ·mol-1 CO2)相比,红松土壤淀粉酶和转化酶活性降低,而长白赤松土壤淀粉酶和转化酶活性却表现为增加;同时发现受700 μmol ·mol-1 CO2处理的红松和长白赤松土壤微生物生物量碳均表现为显著降低。DGGE 结果表明:受高浓度CO2 的影响,长白赤松和红松土壤细菌群落结构发生了明显的变化。研究结果表明土壤微生物对高浓度CO2的响应规律与所研究的的树种有关。图2 表2 参29。     

CO_2浓度升高对长白山三种树木幼苗光合、呼吸及酶活性的影响(英文)

以开顶箱的方式研究了长白山两年生红松、长白赤松、水曲柳幼苗,经过从1999年9月到2001年9月两个生长季高浓度CO2处理后,在700、500 L·L-1高浓度CO2和大气CO2条件下的净光合、暗呼吸速率,RuBP羧化酶活性及叶绿素含量变化。结果表明:红松、长白赤松和水曲柳幼苗在高浓度CO2下RuBP羧化酶活性增加;除500 L·L-1 CO2下的长白赤松幼苗外,高浓度CO2促进净光合速率;700 L·L-1 CO2使红松和长白赤松的暗呼吸速率升高,而水曲柳的暗呼吸在700、500 L·L-1CO2下降低。高浓度使水曲柳幼苗的叶绿素含量降低。     

四个生长季高浓度CO_2处理长白松的气孔响应(英文)

在长白山站以开顶箱方式对4 年生长白松连续4 个生长季进行CO2 处理,包括700 和500 μmolmol-1 高浓度CO2,以及接受空气CO2的对照箱和不扣箱的裸露地条件(约350 μmolmol-1 CO2),通过测定气孔导度(gs),ci/ca比及气孔数量等指标评价气孔对高浓度CO2的响应。气孔导度及ci/ca比的转换实验表明,在各自生长CO2下和在相同测定CO2 下进行比较时,生长在高浓度CO2 下植株的气孔导度要高于空气CO2 下对照组植株的气孔导度(除700 μmol mol-1 CO2 下的植株在生长CO2 浓度下及在350 μmol mol-1 CO2 下测定时的气孔导度低于裸地植株外)。在各自生长CO2浓度下测定时,高浓度CO2下植株的ci/ca比低于对照组植株,但在相同测定CO2浓度下比较时,却是高浓度CO2下植株的ci/ca高于对照组植株的ci/ca比。高浓度CO2下植株与对照组植株在每单位长度气孔数量上无明显差异,但高浓度CO2通过降低气孔线数使长白松当年生针叶的总气孔数量降低,并且改变了气孔在针叶上、下表面的分配模式。表4 参18。     

长期高浓度CO_2处理对长白赤松土壤硝化酶、反硝化酶和固氮酶活性的影响(英文)

在吉林省长白山地区模拟检测了大气CO2浓度升高对土壤氮循环关键过程的影响。试验采用完全随机区组设计的开顶箱系统模拟环境CO2和高浓度CO2,起始于1999年春。选取长白山特有树种长白松(Pinus sylvestris var.sylvestri-formu),种子播种于1999年5月份,萌芽后开始CO2熏蒸处理。CO2熏蒸处理始于每年4月末止于10月末。分别在2006年6月、8月和2007年6月采集土壤样品,并检测土壤硝化酶(NEA)、反硝化酶(DEA)和固氮酶活性。结果表明,高浓度C02使土壤硝化酶(NEA)活性显著提高,提高幅度2006年6月为30.3%,2006年8月为30.9%,2007年6月为11.3%;土壤反硝化酶活性(DEA)在2006年6月份(P<0.012)和2006年8月份(P<0.005)被C02浓度升高显著抑制;在整个研究过程中没有发现C02浓度升高对固氮酶活性产生显著影响。因此,本研究认为C02浓度升高显著影响了土壤硝化酶(NEA)和反硝化酶活性(DEA)。图3表1参44。     

模拟CO2浓度升高对宁夏枸杞营养生长与果实品质的影响

【目的】研究宁夏枸杞对大气CO2浓度升高的生理生态响应机制,为探究枸杞及其他木本经济林植物在气候变化背景下优质高效栽培与育种提供理论依据。【方法】以‘宁杞1号’扦插苗为材料,采用开顶气室(open-top chamber,OTC)及自动监控系统模拟控制CO2浓度,测定宁夏枸杞在升高CO2浓度环境下植株营养生长指标与果实糖分含量、主要活性物质含量和蔗糖代谢相关酶活性的变化。【结果】 1) CO2浓度升高,促进宁夏枸杞植株生长发育,苗高增长量较对照分别高11.67%和18.65%,地径分别高55.09%和62.58%,新梢加长和加粗生长均呈增加趋势。2) 2种CO2浓度升高处理下,宁夏枸杞果实横径较对照分别增加4.56%和7.71%,单果质量分别增加15.05%和34.53%,果实更加饱满。3) CO2浓度升高处理下,夏果(处理90天左右)果实中果糖含量较对照略高,秋果(处理120天后)含量比对照分别低1.39%和3.98%。试验处理期间,果实中葡萄糖和总糖含量均低于对照,且CO2浓度升高1倍[(760±20)μmol·mol^-1 ]处理下降最为明显。夏果果实蔗糖含量均低于对照,秋果在CO2浓度升高1倍[(760±20)μmol·mol^-1 ]下较对照略高。4)果实中枸杞多糖含量低于对照,黄酮含量在秋果期比对照分别低16.62%和18.35%,且CO2浓度升高1倍[(760±20)μmol·mol^-1 ]处理对果实活性物质含量影响较大。5) CO2浓度升高增加了酸性转化酶和中性转化酶活性;夏果蔗糖磷酸合成酶较对照明显增加,但秋果酶活性低于对照;蔗糖合成酶分解方向与合成方向酶活性变化趋势相同,夏果均高于对照,秋果酶活性低于对照,CO2浓度升高1倍[(760±20)μmol·mol^-1 ]处理下差异极显著。【结论】长期高CO2浓度处理促进宁夏枸杞植株营养生长,果实单果质量与纵横径增大,有利于改善果实外观品质;但果实中糖分含量和枸杞多糖、黄酮等生物活性物质的含量明显降低,相关酶活性发生变化,影响果实营养品质。     

在CO2浓度加富条件下马尾松针叶的生理生态响应

研究了在3种不同CO2浓度(360 μmol·mol-1、800 μmol·mol-1、1 200 μmol·mol-1)下马尾松针叶的净光合速率、蒸腾速率、气孔导度、水分利用效率的变化.结果表明:在当前CO2(360 μmol·mol-1)浓度下,当光强为1 000 μmol·m-2·s-1时,净光合速率、蒸腾速率、气孔导度分别为3.46 μmol·m-2·s-1、0.273 mmol·m-2·s-1、0.0254 mmol·m-2·s-1,针叶的光饱和点和光补偿点分别为:(1 800±2) μmol·m-2·s-1和(24±2) μmol·m-2·s-1.当CO2加富到1 200 μmol·mol-1时,针叶的光饱和点降低了200 μmol·m-2·s-1,而光补偿点增加了4 μmol·m-2·s-1.在光照强度为50～2 000 μmol·m-2·s-1的条件下,不同CO2浓度下的水分利用率平均值分别为:1 200 μmol·mol-1浓度下的19.163 μmol·mmol-1,800 μmol·mol-1浓度下的12.912 μmol·mmol-1,360 μmol·mol-1浓度下的11.192 μmol·mmol-1.短期的CO2加富降低了植物叶片的蒸腾速率、气孔导度,而植物的水分利用效率则上升.     

多效唑处理提高马尾松苗木质量的研究

在马尾松苗木生长期,用浓度为500 μg·g-1 000 Ug·g-1、1 500 μg·g-1、2 000 μg·g-1多效唑进行喷施处理.结果表明,低浓度多效唑对马尾松苗木影响不大,高浓度多效唑对其影响极为显著.1 000-1 500 ug·g-1浓度多效唑可有效地提高马尾松的苗木质量,提高苗木抗寒能力和造林成活率.     

长白山阔叶—红松林主要树种对高浓度CO_2的响应

以长白山阔叶—红松林主要树种为材料 ,盆栽于模拟自然光照和人工调节CO2 浓度4 0 0 μmol/mol、 70 0 μmol/mol下两个生长季节 ,高浓度CO2 下生长的 8种供试树种光合速度比对照组的幼树提高 2 9 4 0 %～ 58 39%。通过对高浓度CO2 下幼树光合作用动态变化的研究 ,发现经长期在高浓度CO2 下生长的供试 8个树种均表现出随时间的延长树木叶片光合速度失去原有在高浓度CO2 下出现的光合优势     

黑樱桃与山樱桃幼苗光合作用的比较研究

用LI-6400便携式光合作用系统对美国黑樱桃、加拿大黑樱桃、中国山樱桃苗木的净光合速率、气孔导度、胞间CO2浓度等进行了比较测定,结果表明:(1)日平均净光合速率、气孔导度和胞间CO2浓度均是中国山樱桃最大、美国黑樱桃居中、加拿大黑樱桃最小.3种苗木的净光合速率分别为6.381 μmol·m-2·s-1、5.550 μmol·m-2·s-1、4.952 μmol·m-2·s-1,气孔导度分别为0.200 mol·m-2·s-1、0.151 mol·m-2·s-1、0.134 mol·m-2·s-1,胞间CO2浓度分别为251.7 μmol·mol-1、234.7 μmol·mol-1、230.1 μmol·mol-1.(2)3种苗木的净光合速率、气孔导度、胞间CO2浓度均有显著差异.(3)3种苗木净光合速率的日变化相似,都呈单峰曲线,但美国黑樱桃达到峰值的时间在上午10时,早于加拿大黑樱桃和中国山樱桃,后两者达到峰值的时间都在中午12时.胞间CO2浓度的日变化都是从早晨开始逐渐下降,到下午降低到最小值,然后又有所增加,所不同的是,美国黑樱桃苗木下降到最小值的时间较早,在14时,而中国山樱桃和加拿大黑樱桃则较迟,都在16时.气孔导度的日变化趋势相似.     

长白山阔叶-红松林主要树种对高浓度CO2的响应

以长白山阔叶-红松林主要树种为材料,盆栽于模拟自然光照和人工调节CO2浓度400μmol/mol、700μmol/mol下两个生长季节,高浓度CO2下生长的8种供试树种光合速度比对照组的幼树提高29.40%～58.39%.通过对高浓度CO2下幼树光合作用动态变化的研究,发现经长期在高浓度CO2下生长的供试8个树种均表现出随时间的延长树木叶片光合速度失去原有在高浓度CO2下出现的光合优势.     

长白赤松和红松土壤微生物活性对高浓度CO2的响应

Responses of soil microbial activities to elevated CO₂ in experiment sites ofPinus sylvestriformis andPinus koraiensis seedlings were studied in summer in 2003. The results indicated the number of bacteria decreased significantly (p<0.05) under elevated CO₂ forPinus sylvestriformis andPinus koraiensis. Amylase and invertase activities in soil increased forPinus sylvestriformis and decreased forPinus koraiensis with CO₂ enrichment compared with those at ambient (350 μmol·mol⁻¹). The size of microbial biomass C also decreased significantly at 700 μmol·mol⁻¹ CO₂. Bacterial community structure had some evident changes under elevated CO₂ by DGGE (Denaturing Gradient Gel Electrophoresis) analysis of bacterial 16S rDNA gene fragments amplified by PCR from DNA extracted directly from soil. The results suggested that responses of soil microorganisms to elevated CO₂ would be related to plant species exposed to elevated CO₂. Foundation item: The study was supported by Major State Basic Research Development Program of China (2002CB412502) and the Knowledge Innovation Project from Chinese Academy of Sciences (KZCX1-SW-01-03). Biography: JIA Xia (1975), female, Ph. D. candidate of Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang 110016, P. R. China. Responsible editor: Song Funan     

The contribution of root respiration of<Emphasis Type="Italic">Pinus koraiensis</Emphasis> seedlings to total soil respiration under elevated CO<Subscript>2</Subscript> concentrations

The impacts of elevated atmospheric CO₂ concentrations (500 μmol·mol⁻¹ and 700 μmol·mol⁻¹) on total soil respiration and the contribution of root respiration ofPinus koraiensis seedlings were investigated from May to October in 2003 at the Research Station of Changbai Mountain Forest Ecosystems, Chinese Academy of Sciences, Jilin Province, China. After four growing seasons in top-open chambers exposed to elevated CO₂, the total soil respiration and roots respiration ofPinus koraiensis seedlings were measured by a Li-6400-09 soil CO₂ flux chamber. Three PVC cylinders in each chamber were inserted about 30 cm into the soil instantaneously to terminate the supply of current photosynthates from the tree canopy to roots for separating the root respiration from total soil respiration. Soil respirations both inside and outside of the cylinders were measured on June 16, August 20 and October 8, respectively. The results indicated that: there was a marked diurnal change in air temperature and soil temperature at depth of 5 cm on June 16, the maximum of soil temperature at depth of 5 cm lagged behind that of air temperature, no differences in temperature between treatments were found (P>0.05). The total soil respiration and soil respiration with roots severed showed strong diurnal and seasonal patterns. There was marked difference in total soil respiration and soil respiration with roots severed between treatments (P<0.01); Mean total soil respiration and contribution of root under different treatments were 3.26, 4.78 and 1.47 μmol·m⁻²·s⁻¹, 11.5%, 43.1% and 27.9% on June 16, August 20 and October 8, respectively. Foundation item: This study was supported by the Knowledge Innovation Project of the Chinese Academy of Sciences (KZCX1-SW-01) and the National Natural Science Foundation of China (30070158). Biography: LIU Ying (1976-), female, Ph. D. Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang 110016, P. R. China. Responsible editor: Song Funan     

Effects of elevated CO2 concentrations on photosynthesis, dark respiration and RuBPcase activity of three species seedlings in Changbai Mountain

Two-year-old seedlings ofPinus koraiensis, Pinus sylvestriformis andFraxinus mandshurica were treated in open-top chambers with elevated CO₂ concentrations (700 μL·L⁻¹, 500 μL·L⁻¹) and ambient CO₂ concentrations (350 μL·L⁻¹) in Changbai Mountain from June to Sept. in 1999 and 2001. The net photosynthetic rate, dark respiration rate, ribulose-1,5-bisphosphate carboxlase (RuBPcase) activity, and chlorophyll content were analyzed. The results indicated the RuBPcase activity of the three species seedlings increased at elevated CO₂ concentrations. The elevated CO₂ concentrations stimulated the net photosynthetic rates of three tree species exceptP. sylvestriformis grown under 500 μL·L⁻¹ CO₂ concentration. The dark respiration rates ofP. koraiensis andP. sylvestriformis increased under concentration of 700 μL·L⁻¹ CO₂, out that ofF. mandshurica decreased under both concentrations 700 μL·L⁻¹ and 500 μL·L⁻¹ CO₂. The seedlings ofF. mandshurica decreased in chlorophyll contents at elevated CO₂ concentrations. Foundation item: This paper was supported by the National Natural Science Foundation of China (No. 30070158). Knowledge Innovation Item of Chinese Academy of Sciences (KZCX2-406) and “Hundred Scientists” Project of Chinese Academy of Sciences. Biography: Zhou Yu-mei (1973-) Ph. Doctor, Assistant Research fellow Institute of Applied Ecology. Chinese Academy of Sciences. Shenyang 110016. P.R. China. Responsible editor: Song Funan     

Stomatal response ofPinus sylvestriformis to elevated CO2 concentrations during the four years of exposure

Four-year-oldPinus sylvestriformis were exposed for four growing seasons in open top chambers to ambient CO₂ concentration (approx. 350 μmol·mol⁻¹) and high CO₂ concentrations (500 and 700 μmol·mol⁻¹) at Research Station of Changbai Mountain Forest Ecosystems, Chinese Academy of Sciences at Antu Town, Jilin Province, China (42°N, 128°E). Stomatal response to elevated CO₂ concentrations was examined by stomatal conductance (g _s), ratio of intercellular to ambient CO₂ concentration (c _i/c _a) and stomatal number. Reciprocal transfer experiments of stomatal conductance showed that stomatal conductance in high-[CO₂]-grown plants increased in comparison with ambient-[CO₂]-grown plants when measured at their respective growth CO₂ concentration and at the same measurement CO₂ concentration (except a reduction in 700 μmol·mol⁻¹ CO₂. grown plants compared with plants on unchambered field when measured at growth CO₂ concentration and 350 μmol·mol⁻¹CO₂). High-[CO₂]-grown plants exhibited lowerc _i/c _a ratios than ambient-[CO₂]-grown plants when measured at their respective growth CO₂ concentration. However,c _i/c _a ratios increased for plants grown in high CO₂ concentrations compared with control plants when measured at the same CO₂ concentration. There was no significant difference in stomatal number per unit long needle between elevated and ambient CO₂. However, elevated CO₂ concentrations reduced the total stomatal number of whole needle by the decline of stomatal line and changed the allocation pattern of stomata between upper and lower surface of needle. Foundation Item: This research was supported by National Basic Research Program of China (2002CB412502), Project of Key program of the National Natural Science Foundation of China (90411020) and National Natural Science Foundation of China (30400051). Biography: ZHOU Yu-mei (1973-), female, Ph. Doctor, assistant research fellow, Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang 110016, P. R. China. Responsible editor: Song Funan     

长白山阔叶红松林CO2廓线和CO2贮存的动态

从1999年8至10月,2000年的4至6月,2002年8月至2003年9月,在平均树高为26米的长白山阔叶红松林内,用红外气体分析仪(2250D,LI-CORInc.和LI-COR,820)测定了不同高度的二氧化碳浓度。根据测定的数据,分析了阔叶红松林二氧化碳廓线的日变化和季节变化动态。结果表明:CO2浓度的垂直分布在白天和夜间是不同的,在接近地面处CO2浓度始终最大。从季节CO2廓线看出,在植物生长季节林冠处CO2浓度有明显的成层现象,不同高度(60~2.5m)的CO2浓度3月份变化较小差值为10mmol穖ol-1,而在7月份变化较大,差值为60mmol穖ol-1。7月份林冠处(22,26,32m)CO2浓度梯度较大,浓度差为8mmol穖ol-1。计算位于涡度相关仪器之下的40米高空气柱中CO2贮存状况表明,年际贮存是负值,但对NEE的贡献很小。图4参11。     

白桦光合特性的研究

测定了3年生白桦的光合与呼吸作用对温度,湿度以及CO2浓度的响应;还测定了光补偿点,光饱和点和CO2补偿点。结果表明:在目前的空气CO2浓度下,光合和呼吸作用的最适温度分别是24℃和30℃;当相对湿度是80%时,白桦能维持较强的光合作用;呼吸作用与相对湿度无明显的相关性;光补偿点和光饱和点分别是25 molm-2s-1和1375 祄olm-2s-1;CO2补偿点是180 礚L-1;白桦在CO2浓度为2400 礚L-1时仍有吸收潜力。图4参19。     

Response of seedlings of different tree species to elevated C02 in Changbai Mountain

Eco-physiological responses of seedlings of eight species,Pinus koraiensis, Picea koraiensis, Larix olgensis, Populus ussuriensis, Betula platyphylla, Tilia amurensis, Traxinus mandshurica andAcer mono from broadleaved/Korean pine forest, to elevated CO₂ were studied by using open-top chambers under natural sunlight in Changbai Mountain, China in two growing seasons (1998–1999). Two concentrations of CO₂ were designed: elevated CO₂ (700 μmol·mol⁻¹) and ambient CO₂ (400 μmol·mol⁻¹). The study results showed that the height growth of the tree seedlings grown at elevated CO₂ increased by about 10%–40% compared to those grown at ambient CO₂. And the water using efficiency of seedlings also followed the same tendency. However, the responses of seedlings in transpiration and chlorophyll content to elevated CO₂ varied with tree species. The broad-leaf tree species were more sensitive to the elevated CO₂ than conifer tree species. All seedlings showed a photosynthetic acclimation to long-term elevated CO₂. Foundation item: The project was supported by National Key Basic Development of China (G1999043400) and the grant KZCX 406-4, KZCX1 SW-01 of the Chinese Academy of Sciences Biography: WANG Miao (1964-), maie, associate professor in Institute of applied Ecology, Chinese Academy of Sciences, Shenyang 110016, P. R. China. Responsible editor: Song Funan     

外源糖溶液和高浓度CO2处理对白桦叶片糖和蛋白质含量的影响

3年生白桦同时接受3种外源糖溶液(蔗糖、果糖、葡萄糖)和3种高浓度CO2(700、1400、2100μL·μL-1CO2)处理.处理1个月后,测定了叶片的总糖、蔗糖、果糖和蛋白质含量.结果表明:在700μL·L-1和1400μL·L-1 CO2下,外源糖溶液增加了叶片的可溶性糖和蛋白质含量,其中外源蔗糖的效果最好:外源糖溶液与2100μL·L-1CO2结合,会抑制叶片积累总糖和蛋白质:在700μL·L-1和1400μL·L-1CO2下,喷施葡萄糖、果糖的叶片在蛋白质含量上没有明显差别:同700、1400μL·L-1CO2相比,除喷施果糖植株外,2100μL·L-1 CO2明显增加了叶片的总糖、蔗糖、果糖和蛋白质含量:在喷施同种外源糖溶液的情况下,叶片的糖含量与CO2浓度呈正相关性.图6参7.     

Photosynthetic response ofPinus sylvestriformis to elevated carbon dioxide and its influential factor analysis

The photosynthetic response of 12-year oldPinus sylvestriformis to elevated CO₂ and its influential factors were tested and analyzed in the forest region of Changbai Mountain in 1999. Trees grown at the natural condition were controlled at three levels of CO₂ concentration (350 μL·L⁻¹, 500 μL·L⁻¹ and 700 μL·L⁻¹) by CO₂ rich settlement designed by us. Net photosynthetic rates (NPR), temperature, relative humidity, stomatal conductance, intercellular CO₂ concentration and photosynthetic active radiation (PAR) were measured at 6:00, 8:00, 10:00, 14:00, 16:00 and 18:00 hours a day. Experimental results showed that the NPR ofPinus sylvestriformis increased by 32.6% and 123.0% at 500 μL·L⁻¹ and 700 μL·L⁻¹ CO₂ concentration respectively, compared to ambient atmospheric CO₂ concentration (350 μL·L⁻¹). The relations between NPR and influential factors, including temperature, relative humidity, intercellular CO₂ concentration and photosynthetic active radiation, were analyzed respectively by regression analysis at different CO₂ concentrations. Foundation Item: This project was supported by Chinese Academy of Sciences. Biography: WANG Chen-rui (1970-), male, Assistant Research Fellow in Institute of Applied Ecology, Chinese Academy of Sciences. Responsible editor: Chai Ruihai     

Ecophysiological responses and carbon distribution ofPinus koraiensis seedlings to elevated carbon dioxide

The net CO₂ assimilation rate, stomatal conductance, RuBPcase (ribulose 1,5-biphosphate carboxylose) activity, dry weight of aboveground and belowgroud part, plant height, the length and diameter of taproot ofPinus koraiensis seedlings were measured and analyzed after six-week exposure to elevated CO₂ in an open-top chamber in Changbai Mountain of China from May to Oct. 1999. Seedlings were planted in four different conditions: on an open site, control chamber, 500 μL·L⁻¹ and 700 μL·L⁻¹ CO₂ chambers. The results showed that the total biomass of the seedlings increased whereas stomatal conductance decreased. The physiological responses and growth to 500 μL·L⁻¹ and 700 μL·L⁻¹ CO₂ varied greatly. The acclimation of photosynthesis was downward to 700 μL·L⁻¹ CO₂ but upward to 500 μL·L⁻¹ CO₂. The RuBPcase activity, chlorophyll and soluble sugar contents of the seedlings grown at 500 μL·L⁻¹ CO₂ were higher than that at 700 μL·L⁻¹ CO₂. The concentration 500 μL·L⁻¹ CO₂ enhanced the growth of aboveground part whereas 700 μL·L⁻¹ CO₂ allocated more carbon to belowground part. Elevated CO₂ changed the carbon distribution pattern. The ecophysiological responses were significantly different between plants grown under 500 μL·L⁻¹ CO₂ and 700 μL·L⁻¹ CO₂. Foundation Item: This paper was supported by Chinese Academy of Sciences. Biography: HAN Shi-jie (1956-), male, Ph. Doctor, Professor in Laboratory of Ecological Process of Trace Substance in Terrestrial Ecosystem, Institute of Applied Ecology, Chinese Academy of Sciences. Responsible editor: Chai Ruihai