生态学报2021

回答 你好，很高兴为你解答，环境科学与工程、环境工程、环境科学、环境生态工程、环保设备工程、资源环境科学、水质科学与技术、灾害防治工程、环境监察、雷电防护科学与技术 找环境科学与工程类和无限制的职位。 希望对你有帮助 提问 2021年国考，黑龙江大学化学材料学院化工环境科学专业可以报考那些单位？！ 回答 可以报些卫生、环境和建设等单位的职位 提问 2021年国考，黑龙江大学化工化学与材料院环境科学专业可以报考那些单位？！ 2021年国考，黑龙江大学化工化学与材料院的环境科学专业可以报考那些单位？！ 回答 黑龙江的卫生、环境和建设单位都可以报考呀 提问 海事，海关的，可以报考吗 回答 可以 更多8条 

一般来说，引用一次的文献的页码（或页码范围）在文后参考文献中列出。 多次引用的文献，每处的页码或页码范围（有的刊物也将能指示引用文献位置的信息视为页码）分别列于每处参考文献的序号标注处，置于方括号后（仅列数字，不加“p”或“页”等前后文字、字符；页码范围中间的连线为半字线）并作上标。期刊类：【格式】：[序号]作者 篇名[J] 刊名,出版年份,卷号(期号):起止页码[1] 袁昊 “改革”还是“改良”——班级授课制带来的思考[J] 安徽文学,2011(11):249-专著类：【格式】[序号]作者书名[M]出版地：出版社，出版年份：起止页码[1] 覃兵课堂评价策略[M]北京：北京师范大学出版社,2009:31-学位论文：【格式】[序号]作者 篇名[D] 出版地：保存者，出版年份：起始页码[1]段燕芳 教学地图的运用对初中生构建脑中地图的影响[D] 吉林：东北师范大学,2009:1-报纸类：【格式】[序号]作者 篇名[N] 报纸名，出版日期（版次）[1] 曾居仁，汤苾 贵州出台应对气候变化方案[N] 中国气象报,2008-12-09(001)论文集：【格式】[序号]作者 篇名[C] 出版地：出版者，出版年份：起始页码[1]靳鹤龄,李明启 全球变暖趋势下青藏高原沙漠化发展趋势[A]三江源区生态保护与可持续发展高级学术研讨会论文摘要汇编[C] 西宁: 青海省人民政府、中国科学院,研究报告:【格式】[序号]作者篇名[R]出版地：出版者，出版年份：起始页码[1] 冯西桥核反应堆压力管道与压力容器的LBB分析[R]北京：清华大学核能技术设计研究院, 1997：9-专利文献： 【格式】[序号] 专利所有者．专利题名[P]．专利国别：专利号，发布日期．[1] 姜锡洲．一种温热外敷药制备方案[P]．中国专利：881056078，1983-08-12．国际、国家标准 ：【格式】[序号] 标准代号，标准名称[S]．出版地：出版者，出版年．[1] GB/T 16159—1996，汉语拼音正词法基本规则[S]．北京：中国标准出版社，1996．电子文献 :【格式】[序号] 作者．电子文献题名[文献类型/载体类型]．电子文献的出处或可获得地址, 发表或更新日期/引用日期（任选）[1] 万锦柔．中国大学学报论文文摘(1983-1993)[DB/CD]．北京：中国百科全书出版社，条例:【格式】[序号]颁布单位条例名称发布日期[1] 中华人民共和国科学技术委员会科学技术期刊管理办法[Z]1991-06-译著:【格式】主要责任者文献题名[文献类型标识]出版地：出版者，出版年起止页码(任选)（中译本前要加国别）[1]  M奥康诺尔著，王耀先译．科技书刊的编译工作[M]北京：人民教育出版社，56参考来源：CSDN博主「love666666shen」

Sun, WJ, Huang, Y, Chen, ST, Zou, JW and Zheng, XH, Dependence of wheat and rice respiration on tissue nitrogen and the corresponding net carbon fixation efficiency under different rates of nitrogen application, Advances in Atmospheric Science, 24(1): 55−Zheng X, Zhou Z, Wang YS, Zhu J, Wang YL, Yue J, Shi Y Kobayashi K, Inubushi K, Huang Y, Han S, Xu Z, Xie B, Butterbach-Bahl K, Yang L, Nitrogen-regulated effects of free-air CO2 enrichment on methane emissions from paddy rice Global Change Biology 12 (9), 1717-Xu, Z, X Zheng, YS Wang, YL Wang, Y Huang, J Zhu, Effect of free-air atmospheric CO2 enrichment on dark respiration of rice plants (Oryza sativa L) Agriculture, Ecosystems and Environment 115, 105-112Yue, J, Y Shi, X Zheng, G Huang, J Zhu, The influence of free-air CO2 enrichment (FACE) on microorganism of a paddy soil in the rice-growing Applied Soil Ecology 35(1), 154-Jiang CS, Wang YS, Zheng XH, Zhu B, Huang Y, Hao QJ Methane and nitrous oxide emissions from three paddy rice based cultivation systems in southwest C Advances in Atmospheric Sciences 23 (3): 415-Werner C, Zheng X, Tang J, Xie B, Liu C, Kiese R, Butterbach-Bahl K, N2O, CH4 and CO2 emissions from seasonal tropical rainforests and a rubber plantation in Southwest C Plant and Soil 289, 335-Zhang LH, Song CC, Zheng XH, Wang DX, Wang YY, Effects of nitrogen on the ecosystem respiration, CH4 and N2O emissions to the atmosphere from the freshwater marshes in northeast C Environmental Geology, DOI 1007/s00254-006-0485-Ding, W Y Cai, Z Cai, X Zheng, Diel pattern of soil respiration in N-amended soil under maize Atmospheric Environment 40, 3294-Huang, Y, Zhang, W, Zheng, XH, Han, SH and Yu, YQ, Estimates of methane emissions from Chinese rice paddies by linking a model to GIS database, ACTA ECOLOGICA SINICA, 26(4):980−988Jiao, Y, Huang, Y, Zong, LG, Zheng, XH, Sass, RL, Effects of copper concentration on methane emission in rice soils, Chemosphere, 58(2):185—193Zou, JW, Huang, Y, Sun, WJ, Zheng, XH and Wang, YS, Contribution of plants to N2O emissions in soil-winter wheat ecosystem: pot and field experiments, Plant and Soil, 269:205—211Zou, JW, Huang, Y, Jiang, JY, Zheng, XH and Sass RL, A 3-year field measurement of methane and nitrous oxide emissions from rice paddies in China: Effects of water regime, crop residue and fertilizer application, Global B Cycles, 19, GB2021, doi:1029/2004GB002401Zou, JW, Huang, Y, Lu, YY, Zheng, XH and Wang, YS, Direct emission factor for N2O from rice-winter wheat rotation systems in southeast China, Atmospheric Environment, 39:4755—4765Zheng, XH, Han, SH, Huang, Y, Wang, YS and Wang, MX, Re-quantifying the emission factors based on field measurements and estimating the direct N2O emission from Chinese croplands, Global Biogeochemical Cycles, 18, GB2018, doi:1029/2003GB002167Zhongjun Xu, Xunhua Zheng, Yuesi Wang, Shenghui Han and Yao Huang, #Jianguo Zhu, #Klaus Butterbach-Bahl, Effects of elevated CO2 and N fertilization on CH4 emissions from paddy rice fields, Global Biogeochemical Cycles, V18, GB3009, doi:1029/2004 GB002233, 2004Huang, Y, Zhang, W, Zheng, XH, Li, J and Yu, YQ, Modeling methane emission from rice paddies with various agricultural practices, Journal of Geophysical Research, doi:1029/2003JD004401）Huang, Y, Zou, JW, Zheng, XH, Wang, YS & Xu, XK, Nitrous oxide emissions as influenced by amendment of plant residues with different C:N ratios, Soil Biology & Biochemistry, 36(6): 973-981Jiao, Y, Huang, Y, Zong, LG, Zheng, XH, Sass, RL, Effects of copper concentration on methane emission in rice soils, Chemosphere, doi:1016/005Zou, JW, Huang, Y, Zheng, XH, Wang, YS and Chen, YQ, Static opaque chamber-based technique for determination of net exchange of CO2 between terrestrial ecosystem and atmosphere, Chinese Science Bulletin, 49(4):381—388Zou, JW, Huang, Y，Zong, LG, Zheng, XH and Wang, YS, Carbon dioxide, nitrous oxide and methane emissions from a rice―wheat rotation as affected by crop residue incorporation and temperature, Advances in Atmospheric Science, 21(5): 691—698#Changsheng Li, #Arvin Mosier, #Reiner Wassmann, #Zucong Cai, Xunhua Zheng, Yao Huang, , 2004, Modeling greenhouse gas emissions from rice-based production systems: Sensivitity and upscaling, Global Biogeochemical Cycles, V 18, GB1043, doi:101029/2003 GB002045Zheng, XH, Huang, Y, Wang, YS, Wang, MX, Seasonal characteristics of nitric oxide emission from a typical Chinese rice-wheat rotation during the non-waterlogged period, Global Change Biology, 9:219—227Zheng, XH, Huang, Y, Wang, YS, Wang, MX, Jin, JS, Li, LT, Effects of soil temperature on nitric oxide emission from a typical Chinese rice-wheat rotation during the non-waterlogged period, Global Change Biology, 9:601—611Xu-Ri, Yuesi Wang, Xunhua Zheng, *Baomin Ji & Mingxing Wang, 2003, A comparison between measured and modeled N2O emissions from Inner Mongolian semi-arid grassland, Plant and Soil ,2003,255:513-528Xunhua Zheng, Congbin Fu, Xingkai Xu, Xiaodong Yan, Yao Huang, Guanxiong Chen, Shenghui Han, Fei Hu，The Asian Nitrogen Case S Ambio, 31(2), 79-Huang, Y, Jiao, Y, Zong, LG, Zheng, XH, Sass, RL and Fisher, FM, Quantitative dependence of methane emission on soil properties, Nutrient Cycling in Agroecosystems, 64(1-2): 157—167Xingkai Xu, #Boeckx Pascal, Yuesi Wang, Yao Huang, Xunhua Zheng, Fei Hu and #Van Cleemput Oswald , 2002, Nitrous oxide and methane emissions during rice growth and through rice plants:effect of dicyandiamide and hydroquinone, Biology and Fertility of Soils, 36: 53-58Xunhua Zheng, Mingxing Wang, Yuesi Wang, Renxing Shen, Ji Gou, Jing Li, Jisheng Jin, Laotu Li, Impacts of Soil Moisture on Nitrous Oxide Emission from Croplands: a case study on the rice-based agro-ecosystem in Southeast C Chemosphere-Global Change Science, 2: 207-Xingkai Xu, Yuesi Wang, Xunhua Zheng, 2000, Methane emission from a simulated rice field ecosystem as influenced by hydroquinone and dicyandiamide, The Science of the Total Environment, 2000,263(1-3): 243-253Xunhua Zheng, Mingxing Wang, Yuesi Wang, Renxing Shen, Jing Li, 2000, Mitigation options on greenhouse gas (CH4, N2O, NO) emissions from Advances in Atmospheric S 17(1): 83-Xunhua Zheng, Mingxing Wang, Yuesi Wang, Renxing Shen, Jing Li, J Heyer, M K?gge, H Papen, Jisheng Jin and Laotu Li, Characters of greenhouse gas (N2O, NO, CH4) emissions from croplands of Southeast C World Resource R 11(2): 229-Xunhua Zheng, Mingxing Wang, Yuesi Wang, Renxing Shen, Jing Li, J Heyer, M K?gge, H Papen, Jisheng Jin and Laotu Li, Comparison of Manual and Automatic Methods for Measurement of Methane Emission from Rice Paddy F Advances in Atmospheric Sciences, 15(4): 569-Xunhua Zheng, Mingxing Wang, Yuesi Wang, Renxing Shen, Xingjian Shangguan, J Heyer, M K?gge, H Papen, Jisheng Jin and Laotu Li, N2O and CH4 emission from Rice Paddies in Southeast C Chinese Journal of Atmospheric Sciences, 21(2): 167-黄耀, 张稳, 郑循华, 韩圣慧, 于永强, 基于模型和GIS技术的中国稻田甲烷排放估计, 生态学报，26(4):980−988张稳，黄耀, 郑循华, 于永强， 稻田甲烷排放模型研究—模型灵敏度分析，生态学报，26(5):1359−1366邹建文，黄耀，宗良纲，郑循华，王跃思, 稻田不同种类有机肥施用对后季麦田N2O排放的影响，环境科学, 27（7）：1264−1268卢燕宇，黄耀, 郑循华, 农田氧化亚氮排放系数的研究，应用生态学报,16 (7) :1299—1302刘巧辉, 黄耀, 郑循华, 基于BaPS系统的旱地土壤呼吸作用及其分量确定探讨, 环境科学学报, 25(8):1105—1111孙文娟, 黄耀, 陈书涛, 邹建文, 郑循华, 稻麦作物呼吸作用与植株氮含量、生物量和温度的定量关系, 生态学报，25（5）:1152—1158陈书涛, 黄耀, 郑循华, 陈玉泉，2005。轮作制度对农田氧化亚氮排放的影响及驱动因子，中国农业科学，38 (10) :2053—2060孙文娟，黄耀，陈书涛，杨兆芳，郑循华， 作物生长和氮含量对土壤-作物系统CO2排放的影响，环境科学，25（3）：1—邹建文，黄耀，郑循华，王跃思，陈玉泉， 基于静态暗箱法的陆地生态系统-大气CO2净交换估算，科学通报，49（3）：258—邹建文，黄耀，宗良纲，郑循华，王跃思， 稻田CO2、CH4和N2O排放及其影响因素，环境科学学报，23(6):758—邹建文，黄耀，宗良纲，蒋静艳，郑循华，王跃思， 稻田灌溉和秸秆施用对后季麦田N2O排放的影响，中国农业科学，36(4):409—郑循华，徐仲均，王跃思，韩圣慧，黄耀，蔡祖聪，朱建国， 开放式空气CO2增高影响稻田-大气CO2净交换的静态暗箱法观测研究 应用生态学报，13(10)：1240-郑循华, 王明星, 王跃思, 太湖地区农田NO排放不连续测量最佳时间，环境科学, 21(1): 1-郑循华, 王明星, 王跃思, 李老土, 金继生, 华东稻麦轮作系统的冬小麦田NO排放观测研究 应用生态学报 11(4): 577-郑循华，王明星，王跃思，农田NO排放的时间变异性 环境科学 20(2): 17-郑循华, 王明星, 王跃思，沈壬兴，金继生，李老土， 农田NO排放自动观测 环境科学 19(2): 1-郑循华, 王明星, 王跃思，沈壬兴，张文，龚宴邦， 温度对农田N2O产生与排放过程的影响 环境科学 18(5): 1-郑循华, 王明星, 王跃思, 沈壬兴，龚宴邦，张文，骆冬梅，金继生，李老土, 华东稻麦轮作生态系统N2O排放过程研究 应用生态学报 8(5): 495-郑循华，王明星，王跃思，沈壬兴，龚宴邦，骆冬梅，张文，金继生，李老土， 稻麦轮作生态系统中土壤湿度对N2O产生与排放的影响 应用生态学报 7(3): 213-