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200 10$aMonitoring rocky shores$b[electronic resource] /$fSteven N. Murray, Richard F. Ambrose, Megan N. Dethier
210   $aBerkeley $cUniversity of California Press$dc2006
215   $a1 online resource (242 p.)
300   $aDescription based upon print version of record.
311   $a0-520-24728-0 
320   $aIncludes bibliographical references and indexes.
327   $tFrontmatter -- $tContents -- $tList of figures -- $tList of tables -- $tPreface -- $tAcknowledgments -- $t1 . Designing Rocky Intertidal Monitoring and Impact Field Studies: A Brief Overview -- $t2. Site Classification and Selection -- $t3. Biological Units -- $t4. Sampling Design -- $t5. Transects, Quadrats, and Other Sampling Units -- $t6. Quantifying Abundance: Density and Cover -- $t7. Quantifying Abundance: Biomass -- $t8. Individual-Based Parameters: Age Determination, Growth Rates, Size Structure, and Reproduction -- $tSubject index -- $tTaxonomic index -- $tAbout the authors
330   $aMonitoring changes in the intertidal zone of rocky shores has never been more critical. This sensitive habitat at the interface of land and ocean may well be the marine equivalent of the canary in a coal mine as we advance into an era of global climate change. This handbook describes effective methods and procedures for monitoring the ecological and environmental status of these areas. Written by three collaborating authors with extensive field experience, it provides critical discussions and evaluation of the various sampling techniques and field procedures for studies of intertidal macroinvertebrates, seaweeds, and seagrasses. Rather than prescribing standard protocols or procedures, the authors break down the decision-making process into various elements so investigators can become aware of the advantages and disadvantages of choosing a particular method or approach. Chapters discuss topics such as site selection, field sampling layouts and designs, selection of sampling units, nondestructive and destructive methods of quantifying abundance, and methods for measuring age, growth rates, size, structure, and reproductive condition.
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200 10$aArsenic Toxicity Remediation: Biotechnological Approaches /$fedited by Nitish Kumar, Sanjeev Kumar
205   $a1st ed. 2023.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Springer,$d2023.
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225 1 $aEnvironmental Science and Engineering,$x1863-5539
311 08$aPrint version: Kumar, Nitish Arsenic Toxicity Remediation: Biotechnological Approaches Cham : Springer,c2023 9783031375606 
327   $aSource and distribution Arsenic in soil and aquatic ecosystem ? A review -- Arsenic dynamics in contaminated soil and water- A review -- Arsenic Speciation: An Overview -- Groundwater Arsenic Contamination in India: Vulnerability and Scope for Remedy -- Arsenic Contamination of Soil and Water and Related Bio-hazards in Bangladesh -- Ecotoxicology of arsenic in the marine environment -- Human Health Effects of Chronic Arsenic Exposure -- Arsenicosis: review of recent advances -- Effects of Arsenic: Neurological and Cellular Perspective -- Understanding the Bioaccumulation and Biosorption of Arsenic [As(III)] in Plants and water and Biotechnological Approaches for Its Bioremediation -- Microbial biotechnology as an emerging wastewater treatment process for arsenic mitigation: A critical review -- The role of plant growth promoting bacteria on arsenic removal: A review of existing perspectives -- Alginate-based biotechnology: A review on the arsenic removal technologies and future possibilities -- Arsenic Phytoremediation: a Feasible Approach in the Near Future -- Removal of arsenic from water using nano adsorbents and challenges: An updated review -- Developments in Nanoadsorbents for the Treatment of Arsenic-Contaminated Water -- In silico approach for bioremediation of arsenic-A review.
330   $aArsenic contamination in drinking water and associated adverse outcomes is one of the major health issues in more than 50 countries worldwide. The scenario is getting even more detrimental with increasing number of affected people and newer sites reported from all over the world. Apart from drinking water, the presence of arsenic has been found in various other dietary sources. Threatening the health of millions of people due to arsenic?s toxicity and carcinogenicity, the major routes of arsenic exposure for humans are either through drinking water or crops. This edited volume brings together a diverse group of environmental science, sustainability, and health researchers to address the challenges posed by global mass poisoning caused by arsenic water contamination. The book sheds light on this global environmental issue and proposes solutions to aquatic contamination through multi-disciplinary sustainable approaches and case studies from different parts of world. This book addresses the problem of arsenic by pursuing a holistic approach. It presents the status quo in different parts of the world and provides essential information on food-related arsenic exposure risks for humans and possible preventive and curative measures for tackling arsenic poisoning. The mechanisms of arsenic uptake, translocation, and distribution in plants and grains are also explained. In closing, the book reviews a variety of prospective sustainable solutions to the problem of arsenic accumulation in soil and water. The book comprises three sections. First section describes the routes of exposure to environmental arsenic and its transport in soil and aquatic ecosystems including its source and distribution in specific locations. Second section explains the health risks linked to arsenic exposure in food and the environment. Third section addresses sustainable arsenic contamination mitigation strategies using the potential applications of recent biotechnological techniques, bioremediation, phytoremediation, genetic engineering, nanotechnology, and in silico approaches. The book is intended for a broad audience including researchers, scientists, and readers with diverse backgrounds including agriculture, environmental science, food science, environmental management, and human health. It can also be used as an important reference guide for undergraduate and graduate students, university faculties, and environmentalists. The book may serve as a reference to environment and sustainability researchers, students, and policy makers.
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606   $aEnvironmental Health
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