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"Freshwater algae."
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Freshwater algae : identification and use as bioindicators
Freshwater Algae: Identification and Use as Bioindicators provides a comprehensive guide to temperate freshwater algae, with additional information on key species in relation to environmental characteristics and implications for aquatic management. The book uniquely combines practical material on techniques and water quality management with basic algal taxonomy and the role of algae as bioindicators. Freshwater Algae: Identification and Use as Bioindicators is divided into two parts. Part I describes techniques for the sampling, measuring and observation of algae and then looks at the role of algae as bioindicators and the implications for aquatic management. Part II provides the identification of major genera and 250 important species. Well illustrated with numerous original illustrations and photographs, this reference work is essential reading for all practitioners and researchers concerned with assessing and managing the aquatic environment.
eBook
Freshwater algae : identification, enumeration and use as bioindicators
\"Freshwater Algae provides a comprehensive guide to temperate freshwater algae, with additional information on key species in relation to environmental characteristics and implications for aquatic management.Existing books on freshwater algae fall into two categories: simple identification texts or highly specialised research volumes. There is currently nothing in between that practitioners and students can use on a regular basis. The authors filled this gap with the first edition which provided an accessible, visually appealing volume that is of immediate use to aquatic biologists for algal identification that includes key environmental information on major species.The book is divided into two parts: part I is a general introduction to algae and techniques for sampling, measuring and observation and then looks at the role of algae as bioindicators and the implications for aquatic management, part II provides the identification of major genera and 250 important species. The book is well illustrated in full colour with numerous original illustrations and photographs. This new revised edition will retain the same clear writing style and accessible format of the first edition with new coverage of species from North America, Asia and Australia in addition to expanded coverage of molecular and computational techniques in algal biology\"-- Provided by publisher.
Book
Fresh Water Algae of Dal Lake, Kashmir, India
This is the first monograph of its kind to identify the microalgal species present in Dal Lake of Kashmir, India. It studies the algal diversity of the lake through the latest digital microphotography and advanced software. It presents a comprehensive morphological and taxonomic description of the algal flora supported by authentic literature for the benefit of researchers, students, biologists and others interested in environmental sciences and phycology science. The book also includes 43 plates offering more than 200 coloured photographs of algal species, and this extensive analysis of the algal flora of Dal Lake will serve to stimulate interest in phycological sciences both locally and at a global level. A further interesting facet of the book is its presentation of the seasonal and locational distribution of each algal species and its consideration of the role of different researchers regarding the biological diversity of fresh water algal species.
eBook
Isolation of Freshwater Algae from Some Reservoirs of Chiang Mai Rajabhat University, Mae Rim Campus, Chiang Mai
A study on the biodiversity and isolation of freshwater algae from some reservoirs of Mae Rim Campus, Chiang Mai Rajabhat University, Chiang Mai Province, collected algal samples and assessed the water quality at four reservoirs, including Wiang Bua Reservoir, Ma Lang Por Reservoir, Education Auditorium reservoir, and Kru Noi Garden Reservoir. One hundred and six species of algae belonging to 8 phyla were found. The most prominent species were Cylindrospermopsis philippinensis, Trachelomonas volvocina, Peridiniopsis sp., and Coelastrum astroideum, respectively. The overall water quality was categorized as clean according to some physical and chemical parameters by the National Environmental Board of Thailand. However, high BOD values were detected at some sampling points. The algae isolation included 8 isolates, which could be utilized for various purposes in the future, such as biomass, protein, polysaccharide energy, bioactive compounds, antioxidant substances, wastewater treatment, environmental indicators, algal toxins, and phylogenetic studies. All strains were stored at the Centre of Excellence of Biodiversity Research and Implementation for Community, Chiang Mai Rajabhat University, for conservation and future development purposes.
Journal Article
Transcriptomic analysis of Virescentia guangxiensis (Rhodophyta: Batrachospermales) revealed differential expression of genes in gametophyte and chantransia life phases
Background
The genus
Virescentia
is a significant member of the Batrachospermaceae, exhibiting distinctive life history characteristics defined by alternating generations. This group of taxa has specific environmental requirements for growth. This paper investigates
Virescentia
, which primarily thrives in freshwater environments, such as streams and springs, characterized by low light, low temperatures, and high dissolved oxygen levels. Currently, no laboratory simulations of their growth conditions have been reported in culture studies. Additionally, previous studies indicate that comparisons of photosynthetic strength across different life-history stages of the same species have not been conducted, mainly due to the challenges of simultaneously collecting algal strains at both life-history stages.
Results
During the gametophyte stage, the chloroplast and mitochondrial genomes were measured at 184,899 bp and 26,867 bp, respectively. In the chantransia stage, the lengths of these genomes were 184,887 bp and 27,014 bp, respectively. A comparison of organellar genome covariation and phylogenetic reconstruction revealed that the chloroplast and mitochondrial genomes across different life history stages were highly conserved, with genetic distances of 0 and nucleotide variants of only 9–15 bp. The mitochondrial genome of gametophyte SXU-YN24005 was found to lack two tRNA-Leu (tag) genes compared to that of the chantransia strain. Additionally, a comparative analysis of KEGG pathway transcriptome data from the two life history stages showed that 33 genes related to the ribosomal pathway and 53 genes associated with the photosynthesis pathway exhibited a significant decline in expression during the gametophyte stage compared to the chantransia stage.
Conclusion
In this study, two samples of the same species at different life-history stages were collected from the same location for the first time. The analysis revealed a high degree of conservation between their organelle genomes. Additionally, transcriptome sequencing results indicated substantial differences in gene expression patterns between the two life-history stages. This research will provide reliable data to support the future histological database of freshwater red algae and will establish a theoretical basis for conserving rare and endangered species.
Journal Article
Plant evolution
Photosynthetic eukaryotes thrive anywhere there is sunlight and water. But while such organisms are exceptionally diverse in form and function, only one phototrophic lineage succeeded in rising above its substrate: the land plants (embryophytes). Molecular phylogenetic data show that land plants evolved from streptophyte algae most closely related to extant Zygnematophyceae, and one of the principal aims of plant evolutionary biology is to uncover the key features of such algae that enabled this important transition. At the present time, however, mosaic and reductive evolution blur our picture of the closest algal ancestors of plants. Here we discuss recent progress and problems in inferring the biology of the algal progenitor of the terrestrial photosynthetic macrobiome.
Journal Article
Fermentative hydrogen production using pretreated microalgal biomass as feedstock
Microalgae are simple chlorophyll containing organisms, they have high photosynthetic efficiency and can synthesize and accumulate large quantities of carbohydrate biomass. They can be cultivated in fresh water, seawater and wastewater. They have been used as feedstock for producing biodiesel, bioethanol and biogas. The production of these biofuels can be integrated with CO
2
mitigation, wastewater treatment, and the production of high-value chemicals. Biohydrogen from microalgae is renewable. Microalgae have several advantages compared to terrestrial plants, such as higher growth rate with superior CO
2
fixation capacity; they do not need arable land to grow; they do not contain lignin. In this review, the biology of microalgae and the chemical composition of microalgae were briefly introduced, the advantages and disadvantages of hydrogen production from microalgae were discussed, and the pretreatment of microalgal biomass and the fermentative hydrogen production from microalgal biomass pretreated by different methods (including physical, chemical, biological and combined methods) were summarized and evaluated. For the production of biohydrogen from microalgae, the economic feasibility remains the most important aspect to consider. Several technological and economic issues must be addressed to achieve success on a commercial scale.
Journal Article