黃江鋒,男,博士,廣西大學農學院助理教授。
基本介紹
- 中文名:黃江鋒
- 學位/學歷:博士
- 職業:教師
- 專業方向:甘蔗木質纖維素(甘蔗渣)的綜合利用
- 任職院校:廣西大學農學院
人物經歷,研究方向,學術成果,
人物經歷
本科:2006.09-2010.06 華中農業大學大學 農學專業
碩士:2010.09-2012.06 免試推薦為華中農業大學碩士研究生 作物遺傳育種專業
博士:2012.09-2018.06 免試推薦為華中農業大學博士研究生 作物遺傳育種專業
2018.07—— 廣西大學農學院 助理教授
研究方向
(1)探究細胞壁與甘蔗關鍵生物學性狀之間的關係及其作用機理
(2)甘蔗木質纖維素(甘蔗渣)的綜合利用
學術成果
(1)Huang J, Xia T, Li G, Li X, Li Y, Wang Y, Wang Y,Chen Y, Xie G, Bai F, Peng L,Wang L. (2019) Over-production of native endo-β-1,4-glucanases leads to largely enhanced biomass saccharification and bioethanol production by specific modification of cellulose features in transgenic rice. Biotechnology for Biofuels.12:11. (IF: 6.732;中科院JCR分區:大類1區).
(2)Huang J, Li Y, Wang Y, Chen Y, Liu M, Wang Y, Zhang R, Zhou S, Li J, Tu Y, Hao B, Peng L, Xia T. (2017) A precise and consistent assay for major wall polymer features that distinctively determine biomass saccharifcation in transgenic rice by near-infrared spectroscopy. Biotechnology for Biofuels. 10:294. (IF: 6.732;中科院JCR分區:大類1區).
(3)Huang J, Xia T, Li A, Yu B, Li Q, Tu Y, Zhang W, Yi Z, Peng L. (2012) A rapid and consistent near infrared spectroscopic assay for biomass enzymatic digestibility upon various physical and chemical pretreatments in Miscanthus. Bioresource Technology. 121:274-281. (IF: 5.651; Times Cited: 48; 中科院JCR分區:大類1區).
(4)Wang Y#, Huang J#, Li Y, Xiong K, Wang Y, Li F, Liu M, Wu Z, Tu Y, Peng L. (2015) Ammonium oxalate-extractable uronic acids positively affect biomass enzymatic digestibility by reducing lignocellulose crystallinity in Miscanthus. Bioresource Technology. 196: 391-398. (IF: 5.651; Times Cited: 8; 中科院JCR分區:大類1區)(# 共同第一作者)
(5)Li Y, Liu P, Huang J, Zhang R, Hu Z, Feng S, Wang Y, Wang L, Xia T*, Peng L. (2018) Mild chemical pretreatments are sufficient for bioethanol production in the transgenic rice straws overproducing glucosidase. Green Chemistry. (IF: 9.125; 中科院JCR分區:大類1區).
(6)Li F#, Xie G#, Huang J, Zhang R, Li Y, Zhang M, Wang Y, Li A, Li X, Xia T, Qu C, Hu F, Ragauskas AJ, Peng L. (2017) OsCESA9 conserved-site mutation leads to largely enhanced plant lodging resistance and biomass enzymatic saccharification by reducing cellulose DP and crystallinity in rice. Plant Biotechnology Journal. 15:1093-1104. (IF: 7.443; 中科院JCR分區:大類2區).
(7)Fan C, Feng S, Huang J, Wang Y, Wu L, Li X, Wang L, Tu Y, Xia T, Li J, Cai X, Peng L. (2017). AtCesA8-driven OsSUS3 expression leads to largely enhanced biomass saccharifcation and lodging resistance by distinctively altering lignocellulose features in rice. Biotechnology for Biofuels. 10:221. (IF: 6.732; 中科院JCR分區:大類1區).
(8)Zhang W#, Yi Z#, Huang J, Li F, Hao B, Li M, Hong S, Lv Y, Sun W, Ragauskas A, Hu F, Peng J, Peng L. (2013) Three lignocellulose features that distinctively affect biomass enzymatic digestibility under NaOH and H2SO4 pretreatments in Miscanthus. Bioresource Technology. 130:30-37. (IF: 5.651; Times Cited: 46; 中科院JCR分區:大類1區).
(9)Wu L, Li M, Huang J, Zhang H, Zou W, Hu S, Li Y, Fan C, Zhang R, Jing H, Peng L, Feng S. (2015) A near infrared spectroscopic assay for stalk soluble sugars, bagasse enzymatic saccharification and wall polymers in sweet sorghum. Bioresource Technology. 177: 118-124. (IF: 5.651; Times Cited: 4; 中科院JCR分區:大類1區)
(10)Li X, Xia T, Huang J, Guo K, Liu X, Chen T, Xu W, Wang X, Feng S, Peng L. (2014) Distinct biochemical activities and heat shock responses of two UDP-glucose sterol glucosyltransferases in cotton. Plant Science. 219-220: 1-8. (IF:3.437; Times Cited:5; 中科院JCR分區:大類2區).
(11)Sun D, Alam A, Tu Y, Zhou S, Wang Y, Xia T, Huang J, Li Y, Zahoor, Wei X, Hao B, Peng L. (2017) Steam-exploded biomass saccharification is predominately affected by lignocellulose porosity and largely enhanced by Tween-80 in Miscanthus. Bioresource Technology. 239:74–81. (IF: 5.651; 中科院JCR分區:大類1區).
(12)Wei X, Zhou S, Huang Y, Huang J, Chen P, Wang Y, Zhang X, Tu Y, Peng L, Xia T. (2016) Three fiber crops show distinctive biomass saccharification under physical and chemical pretreatments by altered wall polymer features. BioResources. 11:2124-2137. (IF: 1.321; Times Cited: 2; 中科院JCR分區:大類4區).
(13)Si S#, Chen Y#, Fan C, Hu H, Li Y, Huang J, Liao H, Hao B, Li Q, Peng L, Tu Y. (2015) Lignin extraction distinctively enhances biomass enzymatic saccharification in hemicelluloses-rich Miscanthus species under various alkali and acid pretreatments. Bioresource Technology. 183: 248-254. (IF:5.651; Times Cited: 22; 中科院JCR分區:大類1區).
(14)Xu N#, Zhang W#, Ren S, Liu F, Zhao C, Liao H, Xu Z, Huang J, Li Q, Tu Y, Yu B, Wang Y, Jiang J, Qin J, Peng L. (2012) Hemicelluloses negatively affect lignocellulose crystallinity for high biomass digestibility under NaOH and H2SO4 pretreatments in Miscanthus. Biotechnology for Biofuels. 5(1):58-70. (IF: 5.203; Times Cited: 88; 中科院JCR分區:大類1區).
(15)Hu H, Zhang R, Tao Z, Li X, Li Y, Huang J, Li X, Han X, Feng S, Zhang G, Peng L. (2018) Cellulose Synthase Mutants Distinctively Affect Cell Growth and Cell Wall Integrity for Plant Biomass Production in Arabdopsis. Plant Cell Physiology. (IF: 4.760; 中科院JCR分區:大類3區)
