Advances in dairy Research

Advances in dairy Research
Open Access

ISSN: 2329-888X

+44 1300 500008

Advances in dairy Research : Citations & Metrics Report

Articles published in Advances in dairy Research have been cited by esteemed scholars and scientists all around the world. Advances in dairy Research has got h-index 18, which means every article in Advances in dairy Research has got 18 average citations.

Following are the list of articles that have cited the articles published in Advances in dairy Research.

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

Total published articles

34 40 21 66 10 16 23 33 19 37 30 9 9

Research, Review articles and Editorials

4 6 5 27 7 14 22 32 19 35 29 9 0

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

30 34 16 39 3 2 1 1 0 2 1 0 0

Conference proceedings

0 0 0 0 0 0 0 0 20 0 0 0 0

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

196 310 319 234 197 170 139 83 99 77 23 0 0
Journal total citations count 2299
Journal impact factor 6.15
Journal 5 years impact factor 8.44
Journal cite score 8.73
Journal h-index 18
Journal h-index since 2019 17
Important citations (758)

học huế Đn. xác định Ä‘iều kiện nuôi cấy thích hợp để lactobacillus plantarum w5 sinh exopolysaccharide cao. hue university journal of science (hu jos). 2016 apr 29;121(7).

gupta p, pruthi pa, pruthi v. role of exopolysaccharides in biofilm formation. inintroduction to biofilm engineering 2019 (pp. 17-57). american chemical society.

almansoory af, al-baldawi ia, hazaimeh m. optimization of the eps production of a bacterial floc consortium using different parameters. biocatalysis and agricultural biotechnology. 2019 dec 9:101466.

benhouna is, heumann a, rieu a, guzzo j, kihal m, bettache g, champion d, coelho c, weidmann s. exopolysaccharide produced by weissella confusa: chemical characterisation, rheology and bioactivity. international dairy journal. 2019 mar 1;90:88-94.

gerwig gj. structural analysis of exopolysaccharides from lactic acid bacteria. inlactic acid bacteria 2019 (pp. 67-84). humana press, new york, ny.

cirrincione s, breuer y, mangiapane e, mazzoli r, pessione e. 'ropy'phenotype, exopolysaccharides and metabolism: study on food isolated potential probiotics lab. microbiological research. 2018 sep 1;214:137-45.

sama i. effects of stress related dairy cows.

tu n, dat n, canh l, vinh d. detection of the potential inactivation of tetrodotoxin by lactic acid bacterial exopolysaccharide. toxins. 2018 jul;10(7):288.

xing s, wang j, liang jb, jahromi mf, zhu c, shokryazdan p, laudadio v, tufarelli v, liao x. lead biosorption of probiotic bacteria: effects of the intestinal content from laying hens. environmental science and pollution research. 2017 may 1;24(15):13528-35.

arena mp, russo p, spano g, capozzi v, fiocco d. 2 exopolysaccharides.

hao l, liu w, liu k, shan k, wang c, xi c, liu j, fan q, zhang x, lu x, xu y. isolation, optimization of fermentation conditions, and characterization of an exopolysaccharide from pseudoalteromonas agarivorans hao 2018. marine drugs. 2019 dec;17(12):703.

kavitake d, marchawala fz, delattre c, shetty ph, pathak h, andhare p. biotechnological potential of exopolysaccharide as a bioemulsifier produced by rhizobium radiobacter cas isolated from curd. bioactive carbohydrates and dietary fibre. 2019 oct 1;20:100202.

ar s, sb m, mk r, bk n, msa f, akmh k. isolation of exopolysaccharide producing lactobacillus bulgaricus organism from yoghurt. international journal of natural sciences. 2017 jan 1;6(3).

berthold-pluta am, pluta as, garbowska m, stasiak-różaÅ„ska l. exopolysaccharide-producing lactic acid bacteria–health-promoting properties and application in the dairy industry. advancements of microbiology. 2019 apr 1;58(2):191-204.

adesulu-dahunsi at, jeyaram k, sanni ai, banwo k. production of exopolysaccharide by strains of lactobacillus plantarum yo175 and of101 isolated from traditional fermented cereal beverage. peerj. 2018 oct 10;6:e5326.

oladoja na, unuabonah ei, amuda os, kolawole om. tapping into microbial polysaccharides for water and wastewater purifications. inpolysaccharides as a green and sustainable resources for water and wastewater treatment 2017 (pp. 91-110). springer, cham.

tehri n, kumar n, gopaul r, sharma pk, raghu hv. analytical potential of bacterial spores for assessment of milk quality. inmicrobial cell factories 2018 mar 22 (pp. 371-382). crc press.

kanekar pp, deshmukh sv, kanekar sp, dhakephalkar pk, ranjekar pk. exopolysaccharides of halophilic microorganisms: an overview. inindustrial biotechnology 2017 mar 3 (pp. 21-48). apple academic press.

kavitake d, kandasamy s, devi pb, shetty ph. food bioscience.

semjonovs p, shakirova l, broks r, kistkins s, zikmanis p. research article influence of environmental factors on extracellular fructan and oligosaccharide production by gluconobacter nephelii.

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