Response of bacterial community to simulated nitrogen deposition in soils and a unique relationship between plant species and soil bacteria in the Songnen grassland in Northeastern China

文献类型: 外文期刊

第一作者: Sun, S.

作者: Sun, S.;Xing, F.;Zhao, H.;Gao, Y.;Bai, Z.;Zhao, H.;Dong, Y.

作者机构:

关键词: Nitrogen deposition;soil bacterial community;species richness;resource availability;Songnen grassland

期刊名称:JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION ( 影响因子:3.872; 五年影响因子:3.771 )

ISSN: 0718-9516

年卷期: 2014 年 14 卷 3 期

页码:

收录情况: SCI

摘要: Nitrogen (N) deposition greatly affects the above ground biological composition of grasslands and soil properties. However, its influence on the relationship among soil, plant and bacterial communities remain controversy. We calculated Shannon-wiener index to measure the soil bacterial diversity based on denaturing gradient gel electrophoresis, and investigate the roles of vegetation and soil properties on the soil bacterial community under N addition. A three-year simulated N deposition experiment was conducted in a forbs community dominated by Leymus chinensis (Trin.) Tzvel. and Artemisia scoparia Wald. Et. Kit. N was added at five levels (0, 23, 46, 69, 92 kg ha(-1) yr(-1)). Our results showed that N addition increased the soil microbial biomass carbon (SMBC) and soil bacterial diversity. Moderate N (23, 46, 69 kg ha(-1) yr(-1)) addition increased the soil bacterial diversity, whereas excess N (92 kg ha(-1) yr(-1)) addition inhibited it. The SMBC and soil bacterial diversity were related to richness of plant functional groups. In particular, SMBC had positive correlation with biomass of annuals and biennials, suggesting that the effects of the plant community on the soil bacteria could be explained by a relationship between the soil bacterial community and a subset of plant species rather than all species.

分类号:

  • 相关文献

[1]A novel soil manganese mechanism drives plant species loss with increased nitrogen deposition in a temperate steppe. Tian, Qiuying,Liu, Nana,Bai, Wenming,Li, Linghao,Lu, Peng,Gao, Yan,Yang, An,Wang, Tianzuo,Li, Xin,Han, Xingguo,Zhang, Wen-Hao,Tian, Qiuying,Zhang, Wen-Hao,Liu, Nana,Chen, Jiquan,Chen, Jiquan,Reich, Peter B.,Reich, Peter B.,Yu, Qiang,Cheng, Weixin,Wang, Zhengwen,Han, Xingguo,Yu, Qiang,Smith, Melinda D.,Knapp, Alan K.,Yu, Qiang,Smith, Melinda D.,Guo, Dali,Cheng, Weixin,Ma, Yibing.

[2]Nutrient uptake and allocation by plants in recent mounds created by subterranean rodent, plateau zokor Eospalax baileyi. Wu, Ruixin,Wei, Xiaoting,Liu, Kesi,Zhong, Mengying,Liu, Yuehua,Pan, Duo,Shao, Xinqing,Wu, Ruixin. 2017

[3]Global-scale modelling of potential changes in terrestrial nitrogen cycle from a growing nitrogen deposition. Li, Z. G.,Yang, P.,Wu, W. B.,Lin, L.,Sagisaka, M.. 2012

[4]Modeling the effects of nitrogen deposition on carbon budget in two temperate forests. Tao, Bo,Wang, Qiufeng,Yu, Guirui,Zhang, Leiming,Li, Kerang,Gu, Fengxue,Zhang, Yuandong.

[5]Nitrogen deposition and its effect on carbon storage in Chinese forests during 1981-2010. Gu, Fengxue,Guo, Rui,Li, Jie,Zhang, Yuandong,Huang, Mei,Yan, Huimin,Tao, Bo. 2015

[6]Study of Allocations of 12 Essential Elements under Simulated Warming and Nitrogen Deposition in a Mongolian Traditional Drug, Agi, Artemisia Frigida Willd. Borjigidai, Almaz,Zhuang Li,Xi Yi,Li Ya-wei,Pang Zong-ran,Cui Jian,Borjigidai, Almaz,Zhuang Li,Xi Yi,Li Ya-wei,Pang Zong-ran,Cui Jian,Borjigidai, Almaz,Zhuang Li,Xi Yi,Li Ya-wei,Pang Zong-ran,Cui Jian,Gao Qing-zhu,Gao Qing-zhu,Huang Yong-mei. 2013

[7]Response of N2O emission to water and nitrogen addition in temperate typical steppe soil in Inner Mongolia, China. Liu, Xinchao,Dong, Yunshe,Qi, Yuchun,Peng, Qin,He, Yating,Sun, Liangjie,Jia, Junqiang,Guo, Shufang,Cao, Congcong,Yan, Zhongqing,Sun, Liangjie,Jia, Junqiang,Guo, Shufang,Cao, Congcong,Yan, Zhongqing,Liu, Xinchao,He, Yating,Liu, Xinchao,Liu, Xinchao,Liu, Xuehua.

[8]Field-based evidence for consistent responses of bacterial communities to copper contamination in two contrasting agricultural soils. Li, Jing,Wang, Jun-Tao,Liu, Yu-Rong,He, Ji-Zheng,Li, Jing,Wang, Jun-Tao,Ma, Yi-Bing,Hu, Hang-Wei,He, Ji-Zheng. 2015

[9]Shifts in soil bacterial communities induced by the controlled-release fertilizer coatings. Pan Pan,Lei Mei,Pan Pan,Jiang Hui-min,Zhang Jian-feng,Yang Jun-cheng,Li Shu-shan,Liu Lian,Zhang Shui-qin. 2016

[10]Integration of biofumigation with antagonistic microorganism can control Phytophthora blight of pepper plants by regulating soil bacterial community structure. Wang, Qiujun,Ma, Yan,Wang, Guangfei,Gu, Zhiguang,Sun, Di,An, Xia,Chang, Zhizhou. 2014

[11]The differentiation of soil bacterial communities along a precipitation and temperature gradient in the eastern Inner Mongolia steppe. Yao, Minjie,Rui, Junpeng,Hedenec, Petr,Li, Jiabao,He, Zhili,Li, Xiangzhen,Yao, Minjie,Rui, Junpeng,Hedenec, Petr,Li, Jiabao,He, Zhili,Li, Xiangzhen,Niu, Haishan,Wang, Junming,Cao, Weidong,Cao, Weidong.

[12]Carbon nanomaterials alter plant physiology and soil bacterial community composition in a rice-soil-bacterial ecosystem. Hao, Yi,Zhang, Zetian,Rui, Yukui,Liu, Liming,Ma, Chuanxin,Rui, Yukui,Xing, Baoshan,Ma, Chuanxin,Song, Youhong,Cao, Weidong,Zhou, Guopeng,Guo, Jing. 2018

[13]Long-term nickel exposure altered the bacterial community composition but not diversity in two contrasting agricultural soils. Li, Jing,Wang, Jun-Tao,Liu, Yu-Rong,He, Ji-Zheng,Li, Jing,Wang, Jun-Tao,Ma, Yi-Bing,Hu, Hang-Wei,He, Ji-Zheng.

[14]Alteration of soil bacterial interaction networks driven by different long-term fertilization management practices in the red soil of South China. Xun, Weibing,Li, Wei,Ren, Yi,Xiong, Wu,Ran, Wei,Shen, Qirong,Zhang, Ruifu,Xun, Weibing,Zhang, Ruifu,Huang, Ting,Li, Dongchu.

[15]Soil microbial community structure and function are significantly affected by long-term organic and mineral fertilization regimes in the North China Plain. Li, Juan,Lin, Zhi'an,Li, Yanting,Yang, Xiangdong,Zhao, Bingqiang,Cooper, Julia Mary.

[16]Effect of biofumigation and chemical fumigation on soil microbial community structure and control of pepper Phytophthora blight. Wang, Qiujun,Ma, Yan,Yang, Hao,Chang, Zhizhou.

[17]Responses of ground-dwelling spiders to four hedgerow species on sloped agricultural fields in Southwest China. Cheng, Xu,Wu, Yuhong,Lin, Chaowen,Chen, Yibing,Li, Yuying. 2009

[18]Species diversity defends against the invasion of Nile tilapia (Oreochromis niloticus). Gu, Dang E.,Luo, Du,Xu, Meng,Ma, Guang M.,Mu, Xi D.,Luo, Jian R.,Hu, Yin C.,Ma, Guang M.. 2014

[19]Responses of Soil Seed Bank and Vegetation to the Increasing Intensity of Human Disturbance in a Semi-Arid Region of Northern China. Li, Cui,Wang, Qinghai,Zheng, Ruilun,Wu, Juying,Xiao, Bo. 2017

[20]Plant species diversity is correlated with climatic factors differently at the community and the functional group levels: A case study of desert steppe in Inner Mongolia, China. Zhang, Q.,Niu, J.,Zhou, Y.,Kang, S.,Ma, W.,Zhang, Q.,Wu, J.,Buyantuev, A.,Niu, J.,Wu, J.,Wu, J.,Buyantuev, A.,Niu, J.,Ding, Y..

作者其他论文 更多>>
  • EFFECTS OF MICROPLASTIC CONCENTRATIONS ON THE SURVIVABILITY AND REPRODUCTION OF MOINA MACROCOPA

    作者:Gao, Y.;Fan, K-Y;Wei, J-X;Zeng, Y-Y;Liu, Q-F;Wang, C.;Fan, K-Y;Wei, J-X

    关键词:zooplankton; polystyrene microsphere; intrinsic growth rate; generation time; net reproduction rate

  • Global consortium for the classification of fungi and fungus-like taxa

    作者:Hyde, K. D.;Dai, D. Q.;Du, T. Y.;Li, Q.;Liu, X. F.;Tibpromma, S.;Wijayawardene, N. N.;Hyde, K. D.;Absalan, S.;Afshari, N.;Amuhenage, T. B.;Apurillo, C. C. S.;Armand, A.;Asghari, R.;Bera, I;Bhunjun, C. S.;Boonmee, S.;Bundhun, D.;Chaharmiri-Dokhaharani, S.;Chen, C.;Chethana, K. W. T.;Du, T. Y.;Gajanayake, A. J.;Gentekaki, E.;Gomdola, D.;Gomes de Farias, A. R.;Gunarathne, A.;He, S.;Huanraluek, N.;Hurdeal, V. G.;Jayawardena, R. S.;Karimi, O.;Khyaju, S.;Lestari, A. S.;Li, C. J. Y.;Li, H.;Li, L.;Li, Y. X.;Liao, C. F.;Linn, M. M.;Lu, L.;Luangharn, T.;Luo, L.;Ma, J.;Madagammana, A. D.;Mapook, A.;Marasinghe, D. S.;Meng, Q. F.;Mukhopadyay, S.;Noorabadi, M. T.;Norphanphoun, C.;Pem, D.;Perera, R. H.;Phonemany, M.;Phukhamsakda, C.;Phutthacharoen, K.;Rathnayaka, A. R.;Samarakoon, B. C.;Seifollahi, E.;Su, H. L.;Sun, Y. R.;Sysouphanthong, P.;Tan, T. H.;Tang, X.;Tavakol, N. M.;Thiyagaraja, V;Thongklang, N.;Walker, A.;Wannasawang, N.;Wijesinghe, S. N.;Wu, N.;Xiong, Y. R.;Xu, R. F.;Xu, R. J.;Yang, H. D.;Yang, J.;Yang, Y. H.;Yasanthika, E.;Yu, F. M.;Zeng, M.;Zhang, F.;Zhang, J. Y.;Zin, H. H.;Hyde, K. D.;Amuhenage, T. B.;Apurillo, C. C. S.;Armand, A.;Asghari, R.;Bhunjun, C. S.;Boonmee, S.;Bundhun, D.;Chen, C.;Chethana, K. W. T.;Gajanayake, A. J.;Gentekaki, E.;Gomdola, D.;Gunarathne, A.;He, S.;Hurdeal, V. G.;Jayawardena, R. S.;Karimi, O.;Khyaju, S.;Lestari, A. S.;Li, C. J. Y.;Li, H.;Li, L.;Li, Y. X.;Liao, C. F.;Linn, M. M.;Liu, X. F.;Luo, L.;Ma, J.;Madagammana, A. D.;Meng, Q. F.;Mukhopadyay, S.;Pem, D.;Phonemany, M.;Phutthacharoen, K.;Samarakoon, B. C.;Su, H. L.;Sun, Y. R.;Tang, X.;Thongklang, N.;Walker, A.;Wu, N.;Xiong, Y. R.;Xu, R. F.;Xu, R. J.;Yang, H. D.;Yang, Y. H.;Yasanthika, E.;Yu, F. M.;Zeng, M.;Zhang, F.;Zhang, J. Y.;Zin, H. H.;Abdel-Wahab, M. A.;Abdollahzadeh, J.;Abeywickrama, P. D.;Yan, J. Y.;Zhang, W.;Absalan, S.;Afshari, N.;de Silva, N., I;Lumyong, S.;Promputtha, I;Tennakoon, D. S.;Ainsworth, A. M.;Kirk, P. M.;Liimatainen, K.;Akulov, O. Y.;Aleoshin, V. V.;Mikhailov, K., V;Aleoshin, V. V.;Mikhailov, K., V;Al-Sadi, A. M.;Thamodini, G. K.;Alvarado, P.;Alves, A.;Amalfi, M.;De Kesel, A.;Ertz, D.;Haelewaters, D.;Amalfi, M.;Ertz, D.;Amira, Y.;Anderson, J. L.;Antonin, V;Aouali, S.;Aptroot, A.;Apurillo, C. C. S.;Araujo, J. P. M.;Ariyawansa, H. A.;Arumugam, E.;Gunaseelan, S.;Kaliyaperumal, M.;Kezo, K.;Murugadoss, R.;Assis, D. M. A.;Barbosa, R. N.;da Silva, D. K. A.;da Silva, G. A.;da Silva, R. M. F.;da Silva Santos, A. C.;de Oliveira, N. T.;Diniz, A. G.;Gibertoni, T. B.;Machado, A. R.;Malosso, E.;Meiras-Ottoni, A.;Melo, R. F. R.;Mendes-Alvarenga, R. L.;Santiago, A. L. C. M. A.;Souza-Motta, C. M.;Tiago, P., V;Vieira, L. C.;Atienza, V;Garrido-Benavent, I;Avasthi, S.;Azevedo, E.;Caeiro, M. F.;Azevedo, E.;Caeiro, M. F.;Bahkali, A. H.;Bhat, D. J.;Jones, E. B. G.;Bakhshi, M.;Zare, R.;Banihashemi, Z.;Bao, D. F.;Luo, Z. L.;Shen, H. W.;Baral, H. O.;Barata, M.;Barata, M.;Barbosa, F. R.;Barreto, R. W.;Thines, M.;Thines, M.;Thines, M.;Belamesiatseva, D. B.;Shabashova, T. G.;Bennett Reuel, M.;dela Cruz, T. E. E.;Bennett Reuel, M.;Bezerra, J. D. P.;Bezerra, J. D. P.;Bezerra, J. L.;Bhat, D. J.;Bianchinotti, M., V;Blaszkowski, J.;Boekhout, T.;Tedersoo, L.;Bonito, G.;Boonyuen, N.;Luangsa-ard, J. J.;Bregant, C.;Linaldeddu, B. T.;Buchanan, P.;Johnston, P. R.;McKenzie, E. H. C.;Burgaud, G.;Jany, J. L.;Burgess, T.;Buyck, B.;Cabarroi-Hernandez, M.;Castro-Jauregui, O.;Cortes-Perez, A.;Guzman-Davalos, L.;Ramirez-Cruz, V;Caceres, M. E. S.;Zhang, J. F.;Cai, L.;Raza, M.;Wei, X. L.;Cai, M. F.;Calabon, M. S.;Calaca, F. J. S.;Calaca, F. J. S.;Callalli, M.;Callalli, M.;Callalli, M.;Camara, M. P. S.;Cano-Lira, J. F.;Cantillo, T.;Cao, B.;He, M. Q.;Liu, F.;Liu, S. L.;Wang, K.;Zhao, R. L.;Zhou, L. W.;Carlavilla, J. R.;Carvalho, A.;Castaneda-Ruiz, R. F.;Castlebury, L.;Catania, M. D., V;Cavalcanti, L. H.;Cazabonne, J.;Cazabonne, J.;Cedeno-Sanchez, M. L.;Chaiwan, N.;Chakraborty, N.;Chaverri, P.;Chaverri, P.;Cheewangkoon, R.;Samarakoon, M. C.;Thiyagaraja, V;Chen, C. Y.;Chen, K. H.;Chen, Q.;Chen, W. H.;Chen, Y. P.;Dissanayake, A. J.;Li, W. L.;Liu, J. K.;Maharachchikumbura, S. S. N.;Tian, Q.;Tian, W. H.;Wu, N.;Yu, X. D.;Yu, Y. X.;Zhang, S. N.;Coleine, C.;Li, C. J. Y.;Selbmann, L.;Conde, T. O.;Corazon-Guivin, M. A.;Corazon-Guivin, M. A.;Costa-Rezende, D. H.;Courtecuisse, R.;Crouch, J. A.;Crous, P. W.;Groenewald, J. Z.;Groenewald, M.;Herandez-Restrepo, M.;Houbraken, J.;Sandoval-Denis, M.;Cui, B. K.;Dai, Y. C.;He, S. H.;Li, Y.;Liu, S.;Liu, Z. B.;Song, C. G.;Sun, Y. F.;Wang, C. G.;Xu, T. M.;Yuan, Y.;Zhang, Q. Y.;Zhang, Y.;Zhao, H.;Zhou, M.;Cui, Y. Y.;Ge, Z-W;He, S.;Li, Y. C.;Luo, L.;Su, H. L.;Wang, X. Y.;Worthy, F. R.;Xu, R. F.;Xu, R. J.;Cui, Y. Y.;Li, Y. C.;Wang, X. Y.;Worthy, F. R.;Wu, G.;da Silva, I. R.;Anderson, J. L.;Fernandes, I;Fryar, S. C.;Damm, U.;Darmostuk, V;Flakus, A.;Janik, P.;Rodriguez-Flakus, P.;Ronikier, A.;Zoha, Daroodi;Das, K.;Das, K.;Davoodian, N.;Davydov, E. A.;Dayarathne, M. C.;Decock, C.;Blondelle, A.;de Groot, M. D.;De Lange, R.;Haelewaters, D.;Santamaria, B.;Schoutteten, N.;Sulistyo, B.;Van Caenegem, W.;de Groot, M. D.;Zamora, J. C.;Karakehian, J. M.;Delgado, G.;Denchev, C. M.;Denchev, T. T.;de Silva, N., I;Tennakoon, D. S.;de Souza, F. A.;Dentinger, B.;Devadatha, B.;Devadatha, B.;Dianese, J. C.;Dima, B.;Dissanayake, L. S.;Dogan, H. H.;Chen, C.;Doilom, M.;Dong, W.;Dong, Z. Y.;Li, H.;Li, Y. X.;Liao, C. F.;Luo, M.;Manawasinghe, I. S.;Xiong, Y. R.;Xu, B.;Yang, Y. H.;Zhang, Y. X.;Dolatabadi, S.;Ma, J.;Nanayakkara, C. M.;Dos Santos, L. A.;Alves-Silva, G.;Drechsler-Santos, E. R.;Dubey, M. K.;Dutta, A. K.;Egidi, E.;Elliott, T. F.;Elshahed, M. S.;Youssef, N. H.;Erdogdu, M.;Etayo, J.;Evans, H. C.;Fan, X. L.;Fan, Y. G.;Fedosova, A. G.;Zhurbenko, M. P.;Fell, J.;Fernandes, I;Fernandes, I;Firmino, A. L.;Fiuza, P. O.;Xu, R.;Fragoso de Souza, C. A.;Frisvad, J. C.;Fryar, S. C.;Gabaldon, T.;Torruella, G.;Gabaldon, T.;Torruella, G.;Gabaldon, T.;Gabaldon, T.;Gannibal, P. B.;Gannibal, P. B.;Garcia, D.;Gene, D. J.;Garcia, D.;Gene, D. J.;Garcia-Sandoval, S. R.;Garcia-Sandoval, S. R.;Senanayake, I. C.;Garzoli, L.;Gautam, A. K.;Wu, H. X.;Ghobad-Nejhad, M.;Giachini, A. J.;Goes-Neto, A.;Galindo, L. J.;Gorjon, S. P.;Goto, B. T.;Granados-Montero, M. M.;Granados-Montero, M. M.;Griffith, G. W.;Grossart, H. P.;Grossart, H. P.;Gueidan, C.;Baschien, C.;Yurkov, A.;Gusmao, L. F. P.;Gutierrez, A. C.;Chen, J.;Haelewaters, D.;Haelewaters, D.;Halling, R.;Halling, R.;Han, Y. F.;Hapuarachchi, K. K.;Zhao, C. L.;Harder, C. B.;Harrington, T. C.;Hattori, T.;Wu, W. P.;Healy, R.;Heredia, G.;Hodge, K. T.;Iturriaga, T.;Holgado-Rojas, M.;Holgado-Rojas, M.;Holgado-Rojas, M.;Hongsanan, S.;Hongsanan, S.;Horak, E.;Horak, E.;Hosoya, T.;Takamatsu, S.;Huang, S. K.;Hur, J. S.;Hustad, V. P.;Iotti, M.;Leonardi, M.;Rossi, W.;Jafar, E.;Xu, R.;Jayalal, R. G. U.;Jayasiri, S. C.;Jayawardena, R. S.;Jeewon, R.;Jeewon, R.;Jin, J.;Zafari, D.;Jones, E. B. G.;Zhang, H.;Justo, A.;Kaishian, P.;Kakishima, M.;Piepenbring, M.;Kang, G. P.;Tan, T. H.;Kang, G. P.;Tan, T. H.;Kang, J. C.;Karpov, S. A.;Karunarathna, S. C.;Kaufmann, M.;Kemler, M.;Kirchmair, M.;Neuhauser, S.;Peintner, U.;Zucconi, L.;Kitaura, M. J.;Klawonn, I;Kolarik, M.;Kong, A.;Kuhar, F.;Kukwa, M.;Kumar, S.;Kusan, I;Matocec, N.;Mesic, A.;Posta, A.;Tkalcec, Z.;Lado, C.;Larsson, K. H.;Larsson, K. H.;Latha, K. P. D.;Leontyev, D. L.;Leontyev, D. L.;Lestari, A. S.;Li, D. W.;Li, H. Y.;Li, L.;Lu, Y. Z.;Ma, J.;Zhang, J. Y.;Li, Q. R.;Wurzbacher, C.;Xiao, Y. P.;Lee, H. B.;Wijayawardene, N. N.;Lim, Y. W.;Lim, Y. W.;Lin, C. G.;Linde, C. C.;Liu, N. G.;Liu, N. G.;Liu, X. Y.;Liu, X. Z.;Wisitrassameewong, K.;Lumbsch, H. T.;Lumyong, S.;Lumyong, S.;White, J. F.;Zeng, N. K.;Madrid, H.;Magurno, F.;Magyar, D.;Mahadevan, N.;Mahadevan, N.;Maharachchikumbura, S. S. N.;Maimaiti, Y.;Raza, M.;Manamgoda, D. S.;Udayanga, D.;Wartchow, F.;Mardones, M.;Cedeno-Sanchez, M. L.;Marin-Felix, Y.;Stadler, M.;Cedeno-Sanchez, M. L.;Marin-Felix, Y.;Stadler, M.;Marquez, R.;Masigol, H.;May, T. W.;Yuan, H. S.;Mendieta, S.;Meng, Q. F.;Menkis, A.;Menolli, N., Jr.;Nascimento, C. C.;Silva-Filho, A. G. S.;Meza Calvo, J. G.;Miller, S. L.;Moncada, B.;Moncada, B.;Moncalvo, J. M.;Moncalvo, J. M.;Monteiro, J. S.;Monteiro, J. S.;Monteiro, M.;Mora-Montes, H. M.;Moreau, P. A.;Mueller, G. M.;Nagy, L. G.;Najafiniya, M.;Nascimento, C. C.;Nei, Y.;Neves, M. A.;Niego, A. G. T.;Nilsson, R. H.;Niskanen, T.;Niveiro, N.;Noordeloos, M. E.;Noordeloos, M. E.;Nunez Otano, N. B.;O'Donnell, R. P.;Oehl, F.;Olariaga, I;Orlando, O. P.;Pang, K. L.;Pang, K. L.;Papp, V;Pawlowska, J.;Pereira, O. L.;Perera, R. H.;Perera, R. H.;Perez-Moreno, J.;Perez-Ortega, S.;Peter, G.;Phillips, A. J. L.;Jeronimo, G. H.;Jesus, A. L.;Pires-Zottarelli, C. L. A.;Poinar, G.;Prieto, M.;Quandt, C. A.;Radek, R.;Rahnama, K.;Raj, K. N. A.;Rajeshkumar, K. C.;Sruthi, O. P.;Rama, T.;Rama, T.;Rambold, G.;Rasconi, S.;Ren, G. C.;Ren, G. C.;Robledo, G. L.;Flakus, A.;Rodriguez-Flakus, P.;Ryberg, M.;Ryvarden, L. R.;Salvador-Montoya, C. A.;Samant, B.;Sanchez-Castro, I;Sanchez-Garcia, M.;Sarma, V. V.;Savchenko, A.;Savchenko, K.;Saxena, R. K.;Scholler, M.;Selbmann, L.;Selcuk, F.;Senanayake, I. C.;Shen, Y. M.;Simmons, D. R.;Singh, R.;Sir, E. B.;Yu, Q.;Stemler, J.;Stemler, J.;Stemler, J.;Stemler, J.;Stephenson, S. L.;Strassert, J. F. H.;Su, L.;Su, L.;Suetrong, S.;Norphanphoun, C.;Sun, Y. R.;Wang, Y.;Zeng, X. Y.;Svantesson, S.;Svantesson, S.;Takamatsu, S.;Tanaka, K.;Tang, A. M. C.;Tang, X.;Wei, D. P.;Tanney, J. B.;Taylor, J. E.;Taylor, P. W. J.;Tedersoo, L.;Zhang, F.;Zhang, J. F.;Thiyagaraja, V;Wanasinghe, D. N.;Tibell, L.;Tibell, S.;Tomsovsky, M.;Toome-Heller, M.;Yakovchenko, L.;Yang, H. D.;Yang, Z. L.;Yu, F. M.;Zeng, M.;Zhao, Q.;Tsurykau, A.;Tsurykau, A.;Untereiner, W. A.;Uzunov, B. A.;Valle, L. G.;Van den Wyngaert, S.;Van Vooren, N.;Velez, P.;Verma, R. K.;Vieira, W. A. S.;Vizzini, A.;Walker, A. K.;Yapa, N.;Joshi, Y.;Wang, S. X.;Wijesundara, D. S. A.;Xu, L. J.;Yu, Z. F.

    关键词:classification; nomenclature; scientific criticism; taxonomy

  • PRODUCTION OF MICROBIOLOGICAL PROTEIN FEED FROM SWEET POTATO (Ipomoea batatas L. Lam) RESIDUE BY CO-CULTIVATION SACCHAROMYCES CEREVISIAE AND CANDIDA UTILIS

    作者:Jin, Y. L.;Shen, W. L.;Fang, Y.;Yi, Z. L.;Yang, L.;Zhao, H.;Ding, F.;Jin, Y. L.

    关键词:Sweet potato starch residue; Protein Feed; Saccharomyces cerevisiae; Candida utilis; Resource regeneration

  • Synthesis and Evaluation of Herbicidal Activity of [4-(2-Nitrobenzyl)piperazin-1-yl](phenyl)methanone Derivatives

    作者:Liu, N.;Wan, Y.;Luo, D.;Li, Z.;Han, J.;Bai, H.;Bai, Z.;Luo, D.;Li, Z.

    关键词:methanone derivatives; piperazine derivatives; herbicidal activity

  • Expression and self-assembly of virus-like particles from porcine parvovirus and its application in antibody detection

    作者:Li, Y.;Yue, W.;Li, X.;Chen, Y.;Gao, Y.;Li, Y.;Yue, W.;Li, X.;Chen, Y.;Gao, Y.;Wang, Q.

    关键词:porcine parvovirus; virus -like particles; indirect ELISA

  • The aquaculture supply chain in the time of covid-19 pandemic: Vulnerability, resilience, solutions and priorities at the global scale

    作者:Mangano, M. C.;Milisenda, G.;Berlino, M.;Corbari, L.;Lucchese, M.;Terzo, S.;Bosch-Belmar, M.;Sara, G.;Berlino, M.;Lucchese, M.;Celic, I;Corbari, L.;Azaza, M. S.;Babarro, J. M. F.;Bakiu, R.;Broitman, B. R.;Broitman, B. R.;Buschmann, A. H.;Buschmann, A. H.;Christofoletti, R.;Dong, Y.;Glamuzina, B.;Dobroslavic, T.;Pecarevic, M.;Luthman, O.;Makridis, P.;Nogueira, A. J. A.;Nogueira, A. J. A.;Palomo, M. G.;Dineshram, R.;Sanchez-Jerez, P.;Sevgili, H.;Sevgili, H.;Troell, M.;Troell, M.;AbouelFadl, K. Y.;Azra, M. N.;Britz, P.;Carrington, E.;Carrington, E.;Choi, F.;Grabowski, J. H.;Helmuth, B.;Schultz, K.;Qin, C.;Dionisio, M. A.;Galli, P.;Giannetto, D.;Lebata-Ramos, M. J. H.;Lim, P. T.;Liu, Y.;Llorens, S. M.;Mirto, S.;Pita, C.;Pita, C.;Ragg, N.;Ravagnan, E.;Saidi, D.;Shaltout, M.;Tan, S. H.;Thiyagarajan, V;Thiyagarajan, V;Terzo, S.;Terzo, S.

    关键词:Perishable food supply chain; Disruption; Economic distress; Mitigation measures; Integrated multi-trophic aquaculture; Stakeholder perceptions; Rapid assessment; COVID-19 effects

  • STUDIES ON INFLUENCING FACTORS OF PHYTOPLANKTON FUNCTIONAL GROUPS COMPOSITION AND ECOLOGICAL STATUS OF THE DONGTA SPAWNING GROUNDS IN THE PEARL RIVER, CHINA

    作者:Liu, Q. F.;Lai, Z. N.;Liu, E. C.;Wu, Z.;Gao, Y.;Liu, Q. F.;Lai, Z. N.;Wu, Z.;Gao, Y.;Liu, Q. F.;Lai, Z. N.;Gao, Y.;Liu, E. C.;Liu, Q. F.;Lai, Z. N.;Wu, Z.;Gao, Y.

    关键词:Dongta spawning grounds; phytoplankton functional groups; assemblage index; water quality; relationship analysis

微信小程序