2022年
1.Ma, X.S., Zhang, W., Zhang, X.C., Bao, X.L., Xie, H.T., Li, J., He, H.B., Liang, C., Zhang, X.D. 2022.Dynamics of microbial necromass in response to reduced fertilizer application mediated by crop residue return. Soil Biology and Biochemistry, 108512.
2021年
1.Wang X.X., Zhang W., Liu Y., Jia Z.J., Li H., Yang Y.F., Wang D.M., He H.B., Zhang X.D. 2021. Identification of microbial strategies for labile substrate utilization at phylogenetic classification using a microcosm approach. Soil Biology & Biochemistry, 153,107970.
2.Zhao Y., Liang C., Shao S., Li J., Xie H.T., Zhang W., Chen F.S., He H.B., Zhang X.D. 2021. Interactive effects of elevated CO2 and nitrogen fertilization levels on photosynthesized carbon allocation in a temperate spring wheat and soil system. Pedosphere, 31(1): 191–203.
3.Zhang W., Dong S.H., Nie M., Liang C., Zhang X.C., He, H.B. Zhang X.D. 2021. Effect of temperature on microbial residue dynamics in a temperate farmland soil. Canadian Journal of soil science, 101: 1-4.
2020年
1.Zhang W., Zhang X.C., Bai E., Cui Y.H., He H.B., Zhang X.D. 2020. The strategy of microbial utilization of the deposited N in a temperate forest soil. Biology and Fertility of Soils, 56(3), 359-367.
2.Hu G.Q., Zhao Y., Liu X., Zhou F., Zhang W., Shao S., He H.B., Zhang X.D. 2020. Comparing microbial transformation of maize residue‐N and fertilizer‐N in soil using amino sugar‐specific 15N analysis. European Journal of Soil Science, 71(2), 252-264.
3.Li X.B., Li Z.A., Zhang X.D., Xi L.L., Zhang W.X., Ma Q.Q., He H.B. 2020. Disentangling immobilization of nitrate by fungi and bacteria in soil to plant residue amendment. Geoderma, 374,114450.
4.Wang X.X., Zhang W., Zhou F., Liu Y., He H.B., Zhang X.D. 2020. Distinct regulation of microbial processes in the immobilization of labile carbon in different soils. Soil Biology & Biochemistry, 142, 107723.
5.Li J., Zhang X.C., Luo J.F., Lindsey S., Zhou F., Xie H.T., Li Y., Zhu P., Wang L.C., Shi Y.L., He H.B., Zhang X.D. 2020. Differential accumulation of microbial necromass and plant lignin in synthetic versus organic fertilizer-amended soil.Soil Biology and Biochemistry, 149, 107967.
6.劉肖,胡國(guó)慶,何紅波,張旭東.2020. 連年秸稈覆蓋對(duì)玉米產(chǎn)量及土壤微生物殘?bào)w碳積累的影響.農(nóng)業(yè)工程學(xué)報(bào), 36(12): 117-122.
7.霍海南,李杰,袁磊,解宏圖,朱同彬,Christoph Muller,何紅波,張旭東.2020. 秸稈還田量對(duì)培肥農(nóng)田黑土氮素初級(jí)轉(zhuǎn)化速率的影響.應(yīng)用生態(tài)學(xué)報(bào)����,31(12):1-8.
8.霍海南,李杰,張效琛,朱平,王立春,石元亮,何紅波,張旭東. 2020.不同施肥管理措施對(duì)農(nóng)田土壤中植物和微生物殘留組分的影響[J].應(yīng)用生態(tài)學(xué)報(bào), 31(09):3060-3066.
2019年
1.Liu X., Zhou F., Hu G.Q., Shao S., He H.B., Zhang W., Zhang X.D., Li L.J. 2019. Dynamic contribution of microbial residues to soil organic matter accumulation influenced by maize straw mulching. Geoderma, 333:35-42.
2.Li J., Yang H., Zhou F., Zhang X.C., Luo J.F., Li Y., Lindsey S., Shi Y.L., He H.B., Zhang X.D. 2019. Effects of maize residue return rate on nitrogen transformations and gaseous losses in an arable soil. Agricultural Water Management, 211:132-141.
3.Ding X.L., Zhang B., Filley R.T., Tian C.J., Zhang X.D., He H.B. 2019. Changes of microbial residues after wetland cultivation and restoration. Biology and Fertility of Soils, 55:405–409.
4.Li L.D., Wilsona B.C., He H.B., Zhang X.D., Zhou F., Schaeffer M.S. 2019. Physical, biochemical, and microbial controls on amino sugar accumulationin soils under long-term cover cropping and no-tillage farming. Soil Biology and Biochemistry,135:369-378.
5.Jing Y.L., Wang Y., Liu S.R., Zhang X.D., Wang Q.K., Liu K., Yin Y., Deng J.F. 2019. Interactive effects of soil warming, throughfall reduction, and root exclusion on soil microbial community and residues in warm-temperate oak forests. Applied Soil Ecology, 142:52-58.
6.Zhao Y., Shao S., Schaeffer S.M. Bao X.L., Zhang W., Zhu B., He H.B., Zhang X.D. 2019. Methodological clarification for estimating the input of plant-derived carbon in soils under elevated CO2 based on a 13C-enriched CO2 labeling experiment. Plant and Soil, 440: 569–580.
7.Li X.B., He H.B., Zhang X.D., Yan X.Y., Cai Z.C., Zhang J.B., Li Z.A., Ma Q.Q. 2019. Distinct responses of soil fungal and bacterial nitrate immobilization to land conversion from forest to agriculture. Soil Biology & Biochemistry, 134: 81-89.
8.Ding X.L., Chen S.Y., Zhang B., Liang C., He H.B., Horwathd W.R.2019. Warming increases microbial residue contribution to soil organic carbon in an alpine meadow. Soil Biology & Biochemistry, 135:13-19.
2018年
1.Shao P.S., He H.B., Zhang X.D., Xie H.T.,Bao X.L., Liang C. 2018. Responses of microbial residues to simulated climate change in a semiarid grassland. Science of the Total Environment, 688:1286-1291.
2017年
1.Shao S., Zhao Y., Zhang W., Hu G.Q., Xie H.T., Yan J.H., Han S.J., He H.B., Zhang X.D. 2017.Linkage of microbial residue dynamics with soil organic carbon accumulation during subtropical forest succession. Soil Biology & Biochemistry, 114:114-120.
2.Zhang W., Liang C., Kao-Kniffin J., Xie H.T., He H.B., Zhang X.D.2017.Effects of drying and wetting cycles on the transformations of extraneous inorganic N to soil microbial residues. Scientific report, 7:9477.
3.張蕊,趙鈺,何紅波,張旭東.2017.基于穩(wěn)定碳同位素技術(shù)研究大氣CO2濃度升高對(duì)植物-土壤系統(tǒng)碳循環(huán)的影響. 應(yīng)用生態(tài)學(xué)報(bào),28(7):2370-2388.
4.邵帥,何紅波,張威,趙鈺,張旭東.2017.土壤有機(jī)質(zhì)形成與來(lái)源研究進(jìn)展.吉林師范大學(xué)學(xué)報(bào)(自然科學(xué)版),38(1):126-130.
2016年
1.Hu G.Q., He H.B., Zhang W., Zhao J.S., Cui J.H., Li B., Zhang X.D. 2016. The transformation and renewal of soil amino acids induced by the availability of extraneous C and N. Soil Biology & Biochemistry, 96: 86-96.
2.Bai Z., Liang C., Bode S., Huygens D., Boeckx P. 2016. Phospholipid 13C stable isotopic probing during decomposition of wheat residues. Applied Soil Ecology 98: 65-74.
3.Zhang W., Cui Y.H., Lu X.K., Bai E., He H.B., Xie H.T., Liang C., Zhang X.D. 2016. High nitrogen deposition decreases the contribution of fungal residues to soil carbon pools in a tropical forest ecosystem. Soil Biology & Biochemistry, 97: 211-214.
4.Liu X., Hu G.Q., He H.B., Liang C., Zhang W., Bai Z., Wu Y.Y., Lin G.F., Zhang X.D. 2016. Linking microbial immobilization of fertilizer nitrogen to in situ turnover of soil microbial residues in an agro-ecosystem. Agriculture, Ecosystems & Environment, 229: 40-47.
5.Tian Q.X., He H.B., Cheng W.X., Bai Z., Wang Y., Zhang X.D. 2016. Factors controlling soil organic carbon stability along a temperate forest altitudinal gradient. Scientific Report, 6: 18783.
6.王辛辛,何紅波,胡國(guó)慶,邵鵬帥,張威,解宏圖,張旭東.底物添加對(duì)森林2個(gè)不同演替階段土壤氨基糖動(dòng)態(tài)的影響. 北京林業(yè)大學(xué)學(xué)報(bào), 2016,38(4):86-93.
7.滕澤宇,陳智文,白震,王月陽(yáng),解宏圖,何紅波,張旭東.恒����、變溫培養(yǎng)模式對(duì)土壤呼吸溫度敏感性影響之異同. 土壤通報(bào), 2016,47(1):47-53.
8.楊弘,何紅波,張威,胡國(guó)慶,劉肖,張旭東.秸稈還田對(duì)農(nóng)田棕壤氧化亞氮排放動(dòng)態(tài)的影響.土壤通報(bào), 2016,47(3):660-665.
9.胡國(guó)慶,劉肖���,何紅波���,張旭東.免耕覆蓋還田下玉米秸稈氮素的去向研究. 土壤學(xué)報(bào).2016, 53(4):964-971.
10.崔艷荷,張威�����,何紅波��,解宏圖���,張旭東.外源氮素添加對(duì)森林土壤氨基糖轉(zhuǎn)化的影響. 生態(tài)學(xué)雜志,2016,35(4): 960-965.
2015年
1.Filley T.R., Li M., Zhuang J., Yu G., Sayler G., Ouyang Z., Han X., Zhang X.D., Jiang G., Zhou C., Wang F., Bickham J.W. 2015. Bi-national research and education cooperation in the US-China EcoPartnership for Environmental Sustainability. Journal of Renewable and Sustainable Energy 7, 041512.
2.Hu G.Q, Liu X., He H.B., Zhang W., Xie H.T., Wu Y.Y., Cui J., Sun C., Zhang X.D. 2015. Multi-seasonal nitrogen recoveries from crop residue in soil and crop in a temperate agro-ecosystem. PLoS ONE 10, e0133437.
3.Li N., Xu Y.Z., Han X.Z., He H.B., Zhang X.D., Zhang B. 2015. Fungi contribute more than bacteria to soil organic matter through necromass accumulation under different agricultural practices during the early pedogenesis of a Mollisol. European Journal of Soil Biology 67, 51-58.
4.Xie H.T., Li J., Zhang B., Wang L., Wang J., He H.B., Zhang X.D. 2015. Long-term manure amendments reduced soil aggregate stability via redistribution of the glomalin-related soil protein in macroaggregates. Scientific Reports 5, 14687.
5.Xie H.T., Zhao J., Wang Q., Sui Y., Wang J., Yang X., Zhang X.D, Liang C. 2015. Soil type recognition as improved by genetic algorithm-based variable selection using near infrared spectroscopy and partial least squares discriminant analysis. Scientific Reports 5, 10930.
6.Zhang W., Liang C., Kao-Kniffin J., He H.B., Xie H.T., Zhang H., Zhang X.D. 2015. Differentiating the mineralization dynamics of the originally present and newly synthesized amino acids in soil amended with available carbon and nitrogen substrates. Soil Biology and Biochemistry 85,162-169.
7.焦陽(yáng), 閆穎, 白震, 解宏圖, 何紅波, 張威, 張旭東*. 2015. 不同倒木腐解過(guò)程對(duì)長(zhǎng)白山森林土壤碳氮積累的影響. 土壤通報(bào), 46(5): 1189-1195.
8.曲瑞姣, 劉肖, 胡國(guó)慶, 何紅波, 張旭東*. 2015. 氮肥施用對(duì)土壤固定態(tài)銨有效性和剖面變化特征的影響. 土壤通報(bào), 46(5): 1202-1207.
9.王福平, 依艷麗, 解宏圖, 張玉蘭, 趙曉霞, 宣然然, 葉佳舒, 董智, 張旭東. 2015. 生物炭添加對(duì)潮棕壤土壤性狀及玉米生長(zhǎng)的影響. 玉米科學(xué), 23(5): 83-90.
2014年
1.Tian Q.X., He H.B., Cheng W.X., Zhang X.D.2014. Pulse-dynamic and monotonic decline patterns of soil respiration in long term laboratory microcosms. Soil Biology & Biochemistry, 68: 329-336.
2.Zhang W., He H.B., Li Q., Lu C.Y., Zhang X.D., Zhu J.G. 2014. Soil microbial residue dynamics after 3-year elevated O3 exposure are plant species-specific. Plant and Soil, 376: 139-149.
3.Zhang B., Drury C.F., Yang X.M., Reynolds W.D., Zhang X.D.2014. Effects of long-term and recently imposed tillage on the concentration and composition of amino sugars in a clay loam soil in Ontario, Canada. Soil Tillage Research, 135: 9-17.
4.Xie H.T., Li J.W.,Zhu P.,Peng C., Wang J.K., He H.B., Zhang X.D. 2014. Long-term manure amendments enhance neutral sugar accumulation in bulk soil and particulate organic matter in a Mollisol. Soil Biology & Biochemistry, 78:45-53.
5.王洋�����,閆穎���,劉寧����,何紅波����,張旭東.2014. 土壤碳水化合物、氨基酸�����、木質(zhì)素特性及其顆粒穩(wěn)定性研究進(jìn)展. 土壤通報(bào), 45(2): 493-499.
6.馬田��,劉肖����,李駿���,張旭東����,何紅波. 2014. CO2濃度升高對(duì)土壤-植物(春小麥)系統(tǒng)光合碳分配和積累的影響. 核農(nóng)學(xué)報(bào), 28(12):2238-2246.
7.李麗東,胡國(guó)慶���,趙鈺����,劉肖���,丁雪麗�,何紅波�,張旭東.2014. 玉米秸稈摻入對(duì)土壤氨基糖分布動(dòng)態(tài)的影響. 土壤通報(bào), 45(6):1402-1409.
2013年
1.Bai Z., Bodé S., Huygens D., Zhang X.D., Boeckx P. Kinetics of amino sugar formation from organic residues of different quality. Soil Biology and Biochemistry, 2013, 57: 814-821.
2.Xie H.T .,Li J.W.,Zhu P.,Peng C., Wang J.K., He H.B., Zhang X.D. 2014. Long-term manure amendments enhance neutral sugar accumulation in bulk soil and particulate organic matter in a Mollisol. Soil Biology & Biochemistry, 78:45-53.
3.Bai Z., Xu H., He H.B., Zheng L., Zhang X.D. Alterations of microbial populations and composition in the rhizosphere and bulk soil as affected by residual acetochlor. Environmental Science and Pollution Research, 2013, 20: 369-379.
4.Lü H.J., He H.B., Zhao J., Zhang W., Xie H.T., Hu G.Q., Liu X., Wu Y.Y., Zhang X.D. Dynamics of fertilizer-derived organic nitrogen fractions in an arable soil during a growing season. Plant and Soil, 2013, 373: 595-607.
5.Zhang B., Liang C., He H.B., Zhang X.D. Variations in Soil Microbial Communities and Residues Along an Altitude Gradient on the Northern Slope of Changbai Mountain, China. PLoS ONE, 2013, 8(6): e66184. doi: 10.1371/journal.pone.0066184
6.Zhang B., Yang X., Drury C.F., Zhang X.D. A Mid-Infrared spectroscopy method to determine the glucosamine, galactosamine, and muramic acid concentrations in soil hydrolysates. Soil Science Society of America Journal, 2013, 77: 842-849.
7.Zhang B., Drury C.F., Yang X., Reynolds W.D., Zhang X.D. Effects of long-term and recently imposed tillage on the concentration and composition of amino sugars in a clay loam soil in Ontario, Canada. Soil Tillage Research, 2013, 135: 9-17.
8.Ding X.L., Han X., Zhang X., Qiao Y. Effects of contrasting agricultural management on microbial residues in a Mollisol in China. Soil Tillage Research, 2013, 130: 13-17.
9.彭義, 解宏圖, 李軍, 董智, 白震, 王貴滿, 陳智文, 張旭東. 免耕條件下不同秸稈覆蓋量的土壤有機(jī)碳紅外光譜特征. 中國(guó)農(nóng)業(yè)科學(xué), 2013, 46(11): 2257-2264.
10.李軍, 李正霄, 解宏圖, 董智, 白震, 王貴滿, 陳智文, 張旭東. 免耕條件下不同秸稈覆蓋量對(duì)土壤木質(zhì)素含量的影響. 中國(guó)農(nóng)業(yè)科學(xué), 2013, 46(11): 2265-2270.
11.田秋香, 張彬, 何紅波, 張旭東, 程維信. 長(zhǎng)白山不同海拔梯度森林土壤中性糖分布特征. 應(yīng)用生態(tài)學(xué)報(bào), 2013, 24(7) : 1777-1783.
12.董智, 解宏圖, 張立軍, 白震, 何紅波, 王貴滿, 張旭東. 東北玉米帶秸稈覆蓋免耕對(duì)土壤性狀的影響. 玉米科學(xué), 2013, 21(5): 100-103, 108.
13.谷陽(yáng), 劉寧, 何紅波, 王洋, 李正霄, 張旭東. 不同施肥管理對(duì)農(nóng)田土壤木質(zhì)素積累的影響. 土壤通報(bào), 2013, 44(6): 1470-1476.?
2012年
1.Zhang B., He H.B., Ding X.L., Zhang X.D., Zhang X.P., Yang X.M., Filley T.R. 2012. Soil microbial community dynamics over a maize (Zea mays L.) growing season under conventional- and no-tillage practices in a rainfed agroecosystem. Soil & Tillage Research, 124: 153-160.
2.Yan Y., He H.B., Zhang X., Chen Y., Xie H.T., Bai Z., Zhu P., Ren J., and Wang L.2012. Long-term fertilization effects on carbon and nitrogen in particle-size fractions of a Chinese Mollisol. Can. J. Soil. Sci, 92: 509-519.
3.Zhang B., Yang X.M., Drury C.F., Reynolds W.D., He H.B., Zhang X.D. 2012. Effects of 49 years of fertilization on the distribution and accumulation of soil carbon under corn cultivation. Can. J. Soil. Sci, 92: 835-839.
4.Lü H.J., He H.B., Zhang X.D. 2012. Seasonal dynamics of fertilizer-derived hydrolysable NH3 in an arable soil of Northeast China. Advanced Materials Research, 496: 502-506.
5.張威,韓永嬌,何紅波,解宏圖,張旭東.2012.干濕交替條件下土壤氨基糖含量的動(dòng)態(tài)變化. 應(yīng)用生態(tài)學(xué)報(bào), 23(4): 1037-1041.
6.李響,何紅波,張威,呂慧捷,張旭東,鄭立臣,田福林,李紅.2012. 外源無(wú)機(jī)氮素形態(tài)對(duì)土壤氨基糖動(dòng)態(tài)的影響. 應(yīng)用生態(tài)學(xué)報(bào), 27(5): 1153-1158.
7.胡美玲,關(guān)天霞,何紅波,張旭東.2012. Cu在黑土中形態(tài)特性分析及施用有機(jī)肥的影響. 環(huán)境科學(xué)學(xué)報(bào), 32(9): 2189-2196.
8.呂慧捷,何紅波,張旭東.2012.土壤顆粒分級(jí)過(guò)程中超聲破碎和離心分離的條件選擇. 土壤通報(bào), 43(5): 1126-1130.
9.閆穎,陳盈,何紅波,解宏圖,白震,李曉波,田秋香,張旭東.2012.化肥對(duì)黑土不同粒級(jí)碳水化合物的影響. 土壤通報(bào),43(1): 37-41.
10.呂慧捷,何紅波,張旭東,鄭立臣.2012.玉米不同生長(zhǎng)時(shí)期土壤氨基酸氮的動(dòng)態(tài)特征. 土壤通報(bào),43(1): 31-36
11.韓永嬌���,張威����,何紅波�����,張旭東.2012. 濕交替條件下棕壤氨基糖的動(dòng)態(tài)及指示作用. 土壤通報(bào),43(6):1391-1396.
12.丁雪麗,張旭東,楊學(xué)明,張曉平.2012. 免耕秸稈還田和傳統(tǒng)耕作方式下東北黑土氨基糖態(tài)碳的積累特征. 土壤通報(bào), 49(3): 535-543.
13.關(guān)天霞,何紅波,張旭東,解宏圖,武葉葉. 2012. 施用富Cu豬糞后潮土-小麥系統(tǒng)Cu的傳遞與積累. 土壤通報(bào), 43(3): 724-730.
2011年
1.He H.B., Zhang W., Zhang X.D., Xie H.T., Zhuang J. 2011. Temporal responses of soil microorganisms to substrate addition as indicated by amino sugar differentiation. Soil Biology & Biochemistry, 43:1155-1161.
2.He H.B., Li X.B., Zhang W, Zhang X.D.2011.Differentiating the dynamics of native and newly immobilized amino sugars in soil frequently amended with inorganic nitrogen and glucose. T.X. Guan, H.B. He*, X.D. Zhang, Z. Bai. 2011. European Journal of Soil Science, 62:144-151.
3.Guan T.X., He H.B., Zhang X.D., Bai Z.2011.Cu fractions, mobility and bioavailability in soil-wheat system after Cu-enriched livestock manure applications. Chemosphere, 82:215-222.
4.He H.B., Lü H.J., Zhang W., Hou S.M., Zhang X.D. 2011. A liquid chromatographic/mass spectrometric method to evaluate 13C and 15N incorporation into soil amino acids. Journal of Soils and Sediments, 11:731-740.
5.Xie H.T., Yang X.M., Drury C.F., Yang J.Y., Zhang X.D. 2011. Predicting soil organic carbon and total nitrogen using mid- and near-infrared spectra for Brookston clay loam soil in Southwestern Ontario, Canada. Canadian Journal of Soil Science, 91(1):53-63.
6.Ding X.L., He H.B., Zhang B., Zhang X.D.2011. Plant-N incorporation into microbial amino sugars as affected by inorganic N addition: A microcosm study of 15N-labeled maize residue decomposition. Soil Biology & Biochemistry, 43:1968-1974.
7.Ding X.L., Zhang B., Zhang X.D., Yang X.M., Zhang X.P. 2011. Effects of tillage and crop rotation on soil microbial residues in a rainfed agroecosystem of northeast China. Soil & Tillage Research, 114:43-49.
8.Liang C., Zhang X.D., Wei L.P., He H.B., Higbee A.J., Balser T.C.2011. Investigation of the molecular ion structure for aldononitrile acetate derivatized muramic acid. Journal of Microbiological Methods, 86:224-230.
9.張威���,何紅波�,解宏圖,白震�����,張旭東.2011. 外源物質(zhì)添加對(duì)東北黑土氨基酸礦化的影響. 生態(tài)環(huán)境學(xué)報(bào), 20(2):281-285.
10.關(guān)天霞���,何紅波�����,張旭東����,白震�,解宏圖.2011.土壤中重金屬元素形態(tài)分析方法及形態(tài)分布的影響因素. 土壤通報(bào), 42(2):503-512.
11.杜介方���,張彬����,解宏圖��,王連峰,何紅波��,張旭東. 2011. 不同施肥處理對(duì)球囊霉素土壤蛋白含量的影響. 土壤通報(bào), 42(3):573-577.
12.劉寧�����,何紅波����,解宏圖,張旭東.2011.土壤中木質(zhì)素的研究進(jìn)展. 土壤通報(bào), 42(4):991-996.
13.李曉波���,張威�����,田秋香�,呂慧捷��,丁雪麗���,何紅波��,張旭東.2011. 尿素向氨基糖的轉(zhuǎn)化以及對(duì)土壤氨基糖庫(kù)動(dòng)態(tài)的影響. 土壤學(xué)報(bào), 42(6):1189-1195.
14.丁雪麗���,何紅波�,張彬����,張旭東.2011. 無(wú)機(jī)氮素加入量對(duì)玉米秸稈分解過(guò)程中棕壤氨基糖含量的影響. 土壤學(xué)報(bào), 48(3):665-671.
2010年
1.Liu N., He H.B., Xie H.T., Bai Z., Zhang X.D., Peng C., Zhu P., Ren J., Wang L.C. 2010. Impacts of long-term inorganic and organic fertilization on lignin in a Mollisol. Journal of Soils and Sediments 10:1466-1474.
2.Chen Y., Zhang X.D., He H.B., Xie H.T., Yan Y., Zhu P., Ren J., Wang L.C. 2010. Carbon and nitrogen pools in different aggregates of a Chinese Mollisol as influenced by long-term fertilization. Journal of Soils and Sediments 10: 1018-1026.
3.Ding X.L., Zhang X.D., He H.B., Xie H.T. 2010. Dynamics of soil amino sugar pools during decomposition processes of corn residues as affected by inorganic N addition. Journal of Soils and Sediments 10: 758–766.
4.Liu N., He H.B., Xie H.T., Bai Z., Zhang X.D. 2010. Impact of long-term organic fertilizer application on lignin in Mollisol. Advanced Materials Research 113-114: 1332-1335.(EI)
5.張彬,白震���,解宏圖���,張旭東,張曉平�,時(shí)秀煥. 2010. 保護(hù)性耕作對(duì)黑土微生物群落的影響. 中國(guó)生態(tài)農(nóng)業(yè)學(xué)報(bào),18(1): 83-88.
6.張彬���,杜介方�����,解宏圖,李維福���,王連峰����,張旭東. 2010. 長(zhǎng)期施肥對(duì)顆粒有機(jī)質(zhì)中中性糖特性的影響. 土壤通報(bào),41(3): 617-621.
7.張彬����,何紅波,趙曉霞��,解宏圖�,白震,張旭東. 2010. 秸稈還田量對(duì)免耕黑土速效養(yǎng)分和玉米產(chǎn)量的影響. 玉米科學(xué)����,18(2): 81-84.
8.張彬,何紅波���,白震��,劉寧�����,丁雪麗��,解宏圖���,張旭東. 2010.保護(hù)性耕作對(duì)土壤微生物特性和酶活性的影響. 土壤通報(bào)�����,41(1): 230-236.
9.劉寧����,張世濤��,何紅波�,張旭東. 2010. 微波消化-ICP-AES法測(cè)定植物樣品中硫、磷. 分析試驗(yàn)室����,29: 323-325.
10.劉寧,張威��,何紅波����,解宏圖,白震�����,張旭東. 2010. 固相萃取-氣相色譜法測(cè)定土壤中木質(zhì)素. 分析儀器�,6: 30-33.
11.何紅波,李曉波�,張威,丁雪麗�����,解宏圖���,劉寧��,張旭東���,李麗君. 2010. 葡萄糖和不同數(shù)量氮素供給對(duì)黑土氨基糖動(dòng)態(tài)的影響. 土壤學(xué)報(bào),47(4): 760-766.
12.張威��,何紅波����,解宏圖,白震�,張旭東. 2010. 東北黑土氨基糖的礦化動(dòng)態(tài)及其對(duì)外源物質(zhì)添加的響應(yīng). 應(yīng)用生態(tài)學(xué)報(bào),21(10): 2593-2598.
13.張威,張旭東��,何紅波��,解宏圖��,白震. 2010. 干濕交替條件下土壤氮素轉(zhuǎn)化及其影響研究進(jìn)展. 生態(tài)學(xué)雜志����,29(4): 783-789.
