Soil Ecology: Volume 01 : The Professional's Notes Series (PNS) - Volume 01

authored by: Anandkumar Naorem
Browse all books of ANANDKUMAR NAOREM
ISBN: 9789358874723 | Binding: Hardback | Pages: 510 | Language: English | Copyright: 2025
Length: 152 mm | Breadth: 31.52 mm | Height: 229 mm | Imprint: NIPA | Weight: 850 GMS
USD 234.00 USD 211.00
 
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Keywords

soil microbiology, soil biology, soil fertility, climate change, nutrient cycling, organic matter decomposition, microorganisms, ecosystem health, soil structure, water retention, biodiversity, sustainable agriculture, soil erosion, soil degradation, soil health

Volume 01 delves deeply into the intricate world of soil microbiology and biology, shedding light on their profound impacts on soil fertility and resilience, especially in the face of climate change. Soil microbiology and biology play crucial roles in soil fertility by facilitating nutrient cycling, organic matter decomposition, and the formation of symbiotic relationships with plants. Microorganisms such as bacteria, fungi, protozoa, and nematodes are the unsung heroes of soil ecosystems, breaking down complex organic matter into simpler forms that plants can absorb, thus enriching the soil with essential nutrients. Moreover, soil organisms contribute to soil structure and stability, enhancing water retention and aeration, which are vital for plant growth and ecosystem health.

However, the delicate balance of soil microbiology and biology is increasingly under threat due to climate change. Rising temperatures, altered precipitation patterns, and extreme weather events can disrupt soil ecosystems, affecting the abundance, diversity, and activity of soil organisms. These disruptions can lead to diminished soil fertility, reduced crop yields, and increased vulnerability to soil erosion and degradation. Understanding soil microbiology is therefore paramount in mitigating the impacts of climate change on soil fertility and ecosystem resilience. By studying the interactions between soil organisms and their environment, researchers can develop strategies to enhance soil health, restore degraded soils, and promote sustainable agricultural practices. Moreover, recognizing the vital role of soil microbiology highlights the importance of preserving soil biodiversity and fostering stewardship of this invaluable resource.

In essence, soil is more than just dirt; it is a living, breathing ecosystem teeming with microbial life. Without the intricate web of living beings beneath our feet, soil would indeed be reduced to mere dirt. Volume 01 of this series discusses the significance of soil microbiology and biology in sustaining soil fertility, resilience, and ultimately, life on Earth.

Dr. Anandkumar Naorem, currently employed as a scientist at ICAR-Central Arid Zone Research Institute in Jodhpur, India, previously held the position of Head-in-charge at ICAR- CAZRI, RRS-Bhuj, India. He completed his bachelors degree at Assam Agricultural University, Assam, India, and pursued his masters degree in soil microbiology and bioformulation at the College of Post-Graduate Studies, Central Agricultural University, Meghalaya, India. His doctoral research, conducted at Bidhan Chandra Krishi Viswavidyalaya in West Bengal, India, focused on the remediation of soil heavy metals for
safer crop cultivation.

Dr. Naorem, who has authored several national and international publications, has received national recognition, including the 2015 Best Zonal Master;s Thesis award from the Indian Society of Soil Science and the UGC-Maulana Azad National Fellowship for Minority Students (India). He is acknowledged for his contributions as a young scientist by  numerous societies and organizations, having led various research projects on soil quality in arid regions, studies on elevated carbon dioxide levels, and investigations into halophytes. Notably, he has played a key role in international initiatives promoting spineless cactus as a dryland feed option in Gujarat.

 
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