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Amazonocrinis thailandica sp. nov. (Nostocales, Cyanobacteria), a novel species of the previously monotypic Amazonocrinis genus from Thailand

Wittaya Tawong, Pongsanat Pongcharoen, Piyawat Pongpadung, Supat Ponza, Weerachai Saijuntha

Algae. 2022;37(1):1-14. Published online March 15, 2022
DOI: https://doi.org/10.4490/algae.2022.37.3.10

Web of Science 4 Crossref 4

Performance and competitiveness of red vs. green phenotypes of a cyanobacterium grown under artificial lake browning

Kevin Erratt, Irena Creed, Camille Chemali, Alexandra Ferrara, Vera Tai, Charles Trick

Algae. 2021;36(3):195-206. Published online August 25, 2021
DOI: https://doi.org/10.4490/algae.2021.36.7.19

Web of Science 5 Crossref 8

First record of the cyanobacterial genus Wilmottia (Coleofasciculaceae, Oscillatoriales) from the South Orkney Islands (Antarctica)

Ranina Radzi, Faradina Merican, Paul Broady, Peter Convey, Narongrit Muangmai, Wan Maznah Wan Omar, Sébastien Lavoué

Algae. 2021;36(2):111-121. Published online June 17, 2021
DOI: https://doi.org/10.4490/algae.2021.36.5.6

Web of Science 3 Crossref 5

Genetic and biochemical evidence for redundant pathways leading to mycosporine-like amino acid biosynthesis in the cyanobacterium Sphaerospermopsis torques-reginae ITEP-024

Vanessa Geraldes, Lívia Soman de Medeiros, Stella T. Lima, Danillo Oliveira Alvarenga, Ranko Gacesa, Paul F. Long, Marli Fátima Fiore, Ernani Pinto

Algae. 2020;35(2):177-187. Published online June 15, 2020
DOI: https://doi.org/10.4490/algae.2020.35.5.19

Web of Science 11 Crossref 6

Violetonostoc minutum gen. et sp. nov. (Nostocales, Cyanobacteria) from a rocky substrate in China

Fangfang Cai, Xin Peng, Renhui Li

Algae. 2020;35(1):1-16. Published online March 15, 2020
DOI: https://doi.org/10.4490/algae.2020.35.3.4

Web of Science 23 Crossref 19

Polyphasic delimitation of a filamentous marine genus, Capillus gen. nov. (Cyanobacteria, Oscillatoriaceae) with the description of two Brazilian species

Taiara A. Caires, Goia de M. Lyra, Guilherme S. Hentschke, Aaron Matheus S. da Silva, Valter L. de Araújo, Célia L. Sant’ Anna, José Marcos de C. Nunes

Algae. 2018;33(4):291-304. Published online December 15, 2018
DOI: https://doi.org/10.4490/algae.2018.33.11.25

Web of Science 20 Crossref 21

Identification and toxigenic potential of a Nostoc sp.

Bahareh Nowruzi, Ramezan-Ali Khavari-Nejad, Karina Sivonen, Bahram Kazemi, Farzaneh Najafi, Taher Nejadsattari

Algae. 2012;27(4):303-313.
DOI: https://doi.org/10.4490/algae.2012.27.4.303

Crossref 33

Influence of CO2 concentration on carbon concentrating mechanisms in cyanobacteria and green algae: a proteomic approach

Rishiram Ramanan, Nadimuthu Vinayagamoorthy, Saravana Devi Sivanesan, Krishnamurthi Kannan, Tapan Chakrabarti

Algae. 2012;27(4):295-301.
DOI: https://doi.org/10.4490/algae.2012.27.4.295

Crossref 11

The Study of Cyanobacterial Flora from Geothermal Springs of Bakreswar,West Bengal, India

Manojit Debnath, Narayan Chandra Mandal and Samit Ray^*

Algae. 2009;24(4):185-193.
DOI: https://doi.org/10.4490/ALGAE.2009.24.4.185

Crossref 16

Diversity of Micro-algae and Cyanobacteria on Building Facades and Monuments in India

Lakshmi Kumari Samad and Siba Prasad Adhikary^*

Algae. 2008;23(2):91-114.
DOI: https://doi.org/10.4490/algae.2008.23.2.091

Crossref 29

Cyanobacterial Taxonomy: Current Problems and Prospects for the Integration of Traditional and Molecular Approaches

Jirˇí Komárek

Algae. 2006;21(4):349-375.
DOI: https://doi.org/10.4490/algae.2006.21.4.349

Crossref 98

Ecology of Algal Mats from Hypersaline Ponds in the British Virgin Islands

Lianna Jarecki¹, Sarah M. Burton-MacLeod² and David J. Garbary²^*

Algae. 2006;21(2):235-243.
DOI: https://doi.org/10.4490/algae.2006.21.2.235

Crossref 3

Long-term Preservation of Bloom-forming Cyanobacteria by Cryopreservation

Hae-Kyung Park

Algae. 2006;21(1):125-131.
DOI: https://doi.org/10.4490/algae.2006.21.1.125

Crossref 7

Diel Vertical Distribution of Cyanobacteria in Lake Daecheong

Jong-Geun Park¹^*, Yeoun Suk Kim², Jung Joon Lee³, Sung Hyun Chang³ and Jung Ho Lee³

Algae. 2006;21(1):75-82.
DOI: https://doi.org/10.4490/algae.2006.21.1.075

Crossref 2

Optimal Growth Conditions for the Two Euryhaline Cyanobacterial Clones, Anabaena sp. CB-MAL21 and CB-MAL22 Isolated from Mankyeong Estuary, Korea

Young Geel Kim, Geum Og Myung, Wonho Yih^* and Yoon Keun Shin¹

Algae. 2004;19(2):145-148.
DOI: https://doi.org/10.4490/ALGAE.2004.19.2.145

Effect of Hydrautic-Gun-Aerators on Cyanobacterial Bloom in a Sayeon Dam reservoir

Jung Ho Lee

Algae. 2004;19(1):23-30.
DOI: https://doi.org/10.4490/ALGAE.2004.19.1.023

The Analysis of Cyanobacterial Neurotoxins by High-Performance Liquid Chromatography-Mass Spectrometry

Jong-Mun Jung, You-Jung Lee, Hong-Ki Park, Eun-Young Jung, Gea-Jea Joo

Algae. 2003;18(3):233-238.
DOI: https://doi.org/10.4490/ALGAE.2003.18.3.233

Crossref 5

Photosynthetic Activities of a Roof-Top Desiccation Tolerant Cyanobacterium Scytonema geitleri at Varying Hydration Levels

S.N. Tripathi, J.N. Maurya

Algae. 2001;16(4):445-455.

New Records of Intertidal Epilithic Cyanobacteria from Hong Kong Shores

Sanjay Nagarkar

Algae. 2001;16(4):343-348.

Cyanobacterial Crust in Hong Kong and Comments on Future Research

Ronald D. Hill, Sanjay Nagarkar, Mervyn R. Peart

Algae. 2000;15(2):65-71.

Comparison of HPLC Analysis and Protein Phosphatase Assay in the Detection of Cyanobacterial Toxins in the Naktong River Samples

Vishal C. Srivastava, Young Shik Park, Jin Ae Lee

Algae. 1999;14(2):111-115.

Horizontal and Vertical Distribution of Protein Phosphatase Inhibitors of Microcystin Class in the Naktong River, Korea

Vishal C. Srivastava, Ae Ran Choi, Woohyun Kim, Jin-Ae Lee

Algae. 1999;14(1):67-72.

Environmental Factors Affecting the Production of Inhibitory Metabolites in the Cultures of Fischerella muscicola

Vishal C. Srivastava, G.J. Mandersn, R. Bhamidimarri

Algae. 1998;13(1):109-117.

Journal Impact Factor 3.2