Environmental Management
D. Justus Reymond; K. Sudalaimuthu
Abstract
BACKGROUND AND OBJECTIVES: Heavy metals can enter the food chain in the aquatic environment and become available for accumulation in biota. Industrialization and agricultural developments are progressively causing ecological concerns, which must be addressed. This study aimed to ascertain the heavy metals ...
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BACKGROUND AND OBJECTIVES: Heavy metals can enter the food chain in the aquatic environment and become available for accumulation in biota. Industrialization and agricultural developments are progressively causing ecological concerns, which must be addressed. This study aimed to ascertain the heavy metals in Tamiraparani River sediments using contamination factor and contamination degree, which would help administrative bodies implement control measures. For heavy metal analysis, this study is unique in that it focuses on the far downstream, where the sediment deposition is higher.METHODS: Using an atomic absorption spectrophotometer, the abundance of iron, manganese, copper, and chromium was determined in this study. In this study, the heavy metals in the sediments are selected on the basis of previous studies. Additionally, to assess sediment pollution status, contamination factor, contamination degree, and pollution load index were used. Furthermore, a geographical information system was used to analyse the temporal variations of heavy metals in the sediments for different spatial locations downstream of the river.FINDINGS: The study revealed that iron > manganese > chromium > copper concentration ranges from 3838 to 853, 68 to 7.8, 8.3 to 0.5, and 5.6 to 0.26 milligram per kilogram, respectively. The contamination factor ranges from 0.006 to 0.093 among all the sampling locations, heavy metals, and seasons, indicating that the pollution is in a low-level category. The contamination degree ranges from 0.039 to 0.378 among sampling stations and seasons, also indicating low-category pollution. The pollution load index value ranges from 0.004 to 0.092, which is less than 1 (guideline value), indicating less pollution impact. The seasonal variation shows that the post-monsoon is highly polluted because of the excessive sediment deposit from upstream after monsoon rainfall.CONCLUSION: The contamination factor and contamination degree are within the acceptable limit. However, they are in an increasing phase during monsoon seasons, which indicates that heavy metals are from industries and are built up along the river banks upstream. Additionally, chromium and copper are in high concentrations during post-monsoon (chromium = 6.643, copper = 5.636) than during pre-monsoon because of anthropogenic activities and industrial waste discharge into the river stream.
Environmental Management
V. Dhayalan; K. Sudalaimuthu
Abstract
Rapid human population growth and its consequences of food shortage become a significant concern in recent decades across the world. The untold reasons behind this food shortage were industrialization, urbanization, modern civilization, etc., where the agricultural land has been deployed. With the decreasing ...
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Rapid human population growth and its consequences of food shortage become a significant concern in recent decades across the world. The untold reasons behind this food shortage were industrialization, urbanization, modern civilization, etc., where the agricultural land has been deployed. With the decreasing farmland and its cultivation, food productivity declined drastically and failed to serve the world's vast human population. The present challenge is to increase productivity with the least agricultural land. Thus, excessive chemical fertilizer has been used to quickly turn out more outstanding food production, leading to more significant damages to soil ecosystem and human health. Henceforth, bio-fertilizers find the best alternatives to chemical fertilizers. This study focuses on complete nature of plant growth Promoting rhizobacteria, which is used in bio fertilizers for sustainable agricultural productivity and everlasting soil fertility. The characteristics of plant growth promoting rhizobacteria and its role in plant growth and formulation of plant growth promoting rhizobacteria biofertilizers have been revealed through intensive literature. The consortium information collected from various literatures brings the unique findings that plant growth promoting rhizobacteria is the natural boon to the global agriculturist. This study discusses plant growth promoting rhizobacteria bacterial strains' role in protecting the soil from various biotic and abiotic stresses, regulating plant growth and its role in producing biofertilizers. Besides, it is transformed into commercial products. Eventually, the future trends and research in plant growth promoting rhizobacteria bio inoculants that promote sustainable agriculture have been elucidated. The microorganism is the bio fertilizer's main ingredients, promoting the soil nutrients for efficient plant growth and increasing food productivity. Although many microorganisms efficiently contribute to the soil nutrients, this review narrows down to the plant growth promoting rhizobacteria study. Beneficial bacterium plays a vital role in nutrient mineralization and productivity among the various microorganisms. Bio fertilizers containing beneficial bacteria were economically viable and readily available in nature. This review reveals the complete essence of plant growth promoting rhizobacteria and its part in bio fertilizers.