Articles published in Global Journal of Biology, Agriculture & Health Sciences have been cited by esteemed scholars and scientists all around the world. Global Journal of Biology, Agriculture & Health Sciences has got h-index 15, which means every article in Global Journal of Biology, Agriculture & Health Sciences has got 15 average citations.

Following are the list of articles that have cited the articles published in Global Journal of Biology, Agriculture & Health Sciences.

  2024 2023 2022 2021 2020 2019 2018 2017 2016 2015 2014 2013 2012

Total published articles

21 58 31 33 12 10 15 15 55 109 153 130 12

Research, Review articles and Editorials

1 8 2 15 2 9 15 15 55 105 151 127 12

Research communications, Review communications, Editorial communications, Case reports and Commentary

20 50 29 18 8 1 0 0 0 4 3 3 0

Conference proceedings

0 0 0 0 0 18 0 0 0 0 0 0 0

Citations received as per Google Scholar, other indexing platforms and portals

75 88 117 110 109 80 92 84 60 55 28 0 0
Journal total citations count 780
Journal impact factor 1.61
Journal 5 years impact factor 2.07
Journal cite score 5.56
Journal h-index 15
Important citations

Shah FA, Mahmood Q, Shah MM, Pervez A, Asad SA. Microbial ecology of anaerobic digesters: the key players of anaerobiosis. The Scientific World Journal. 2014;2014.

Eubeler JP, Bernhard M, Knepper TP. Environmental biodegradation of synthetic polymers II. Biodegradation of different polymer groups. TrAC Trends in Analytical Chemistry. 2010 Jan 1;29(1):84-100.

Divya D, Gopinath LR, Christy PM. A review on current aspects and diverse prospects for enhancing biogas production in sustainable means. Renewable and sustainable energy reviews. 2015 Feb 1;42:690-9.

López-González JA, Suárez-Estrella F, Vargas-García MC, López MJ, Jurado MM, Moreno J. Dynamics of bacterial microbiota during lignocellulosic waste composting: Studies upon its structure, functionality and biodiversity. Bioresource technology. 2015 Jan 1;175:406-16.

Pathak VM. Review on the current status of polymer degradation: a microbial approach. Bioresources and Bioprocessing. 2017 Dec;4(1):1-31.

Abdel-Hamid AM, Solbiati JO, Cann IK. Insights into lignin degradation and its potential industrial applications. Advances in applied microbiology. 2013 Jan 1;82:1-28.

Xu N, Zhang W, Ren S, Liu F, Zhao C, Liao H, Xu Z, Huang J, Li Q, Tu Y, Yu B. Hemicelluloses negatively affect lignocellulose crystallinity for high biomass digestibility under NaOH and H 2 SO 4 pretreatments in Miscanthus. Biotechnology for biofuels. 2012 Dec;5(1):1-2.

Pasangulapati V, Ramachandriya KD, Kumar A, Wilkins MR, Jones CL, Huhnke RL. Effects of cellulose, hemicellulose and lignin on thermochemical conversion characteristics of the selected biomass. Bioresource technology. 2012 Jun 1;114:663-9.

Huang DL, Zeng GM, Feng CL, Hu S, Jiang XY, Tang L, Su FF, Zhang Y, Zeng W, Liu HL. Degradation of lead-contaminated lignocellulosic waste by Phanerochaete chrysosporium and the reduction of lead toxicity. Environmental science & technology. 2008 Jul 1;42(13):4946-51.

Nizami AS, Korres NE, Murphy JD. Review of the integrated process for the production of grass biomethane. Environmental science & technology. 2009 Nov 15;43(22):8496-508.

Gusakov AV, Salanovich TN, Antonov AI, Ustinov BB, Okunev ON, Burlingame R, Emalfarb M, Baez M, Sinitsyn AP. Design of highly efficient cellulase mixtures for enzymatic hydrolysis of cellulose. Biotechnology and bioengineering. 2007 Aug 1;97(5):1028-38.

Mtui GY. Recent advances in pretreatment of lignocellulosic wastes and production of value added products. African Journal of Biotechnology. 2009;8(8).

Kang S, Li X, Fan J, Chang J. Hydrothermal conversion of lignin: a review. Renewable and Sustainable Energy Reviews. 2013 Nov 1;27:546-58.

Juturu V, Wu JC. Microbial xylanases: engineering, production and industrial applications. Biotechnology advances. 2012 Nov 1;30(6):1219-27.

Boudet AM, Kajita S, Grima-Pettenati J, Goffner D. Lignins and lignocellulosics: a better control of synthesis for new and improved uses. Trends in plant science. 2003 Dec 1;8(12):576-81.

Zabed H, Sahu JN, Boyce AN, Faruq G. Fuel ethanol production from lignocellulosic biomass: an overview on feedstocks and technological approaches. Renewable and Sustainable Energy Reviews. 2016 Dec 1;66:751-74.

Makkar RS, Cameotra SS, Banat IM. Advances in utilization of renewable substrates for biosurfactant production. AMB express. 2011 Dec;1(1):1-9.

Lee HV, Hamid SB, Zain SK. Conversion of lignocellulosic biomass to nanocellulose: structure and chemical process. The Scientific World Journal. 2014 Aug 27;2014.

Chen R, Senbayram M, Blagodatsky S, Myachina O, Dittert K, Lin X, Blagodatskaya E, Kuzyakov Y. Soil C and N availability determine the priming effect: microbial N mining and stoichiometric decomposition theories. Global change biology. 2014 Jul;20(7):2356-67.

Sun S, Sun S, Cao X, Sun R. The role of pretreatment in improving the enzymatic hydrolysis of lignocellulosic materials. Bioresource technology. 2016 Jan 1;199:49-58.