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E-grāmata: Agriculturally Important Microorganisms: Mechanisms and Applications for Sustainable Agriculture

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  • Formāts: 256 pages
  • Izdošanas datums: 23-Nov-2021
  • Izdevniecība: CRC Press
  • Valoda: eng
  • ISBN-13: 9781000506419
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Agriculturally Important Microorganisms: Mechanisms and Applications for Sustainable AgriculturePalielināt
  • Formāts: 256 pages
  • Izdošanas datums: 23-Nov-2021
  • Izdevniecība: CRC Press
  • Valoda: eng
  • ISBN-13: 9781000506419
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The book encompasses different Agriculturally Important microorganisms (AIMs), mechanisms of action and modes of application for sustainable agriculture. The potential of microbes in nitrogen fixation, solubilizing nutrients like phosphorous, Potassium, tolerance to  etc. are the major strength of the book. There is relatively a new frontier, use of Plant Growth Promoting Rhizobacteria(PGPR)in enhancing crop productivity. These microbes inhabit at the rhizospheric region of the root and facilitate plant growth through a variety of direct and indirect mechanisms. These PGP have been identified to solubilize phosphate, Potassium, Zinc, produce siderophore, IAA, Hydrogencyanide, fix ammonia and many more. Today, such microbes are extensively studied not only as a biofertilizer or fortification of nutrient to the plant, but also a potential agent to decrease application of chemical fertilizer and other agrochemicals. The book also gives an insight to this aspect also. Last but not the least,a light has been thrown on use and application of nano-biofertilizer for sustainable agriculture.
Note: T&F does not sell or distribute the hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka. This title is co-published with NIPA.

The book enlightens the inherent potential of AIMs in inter and intra community interactions, metabolite production and plant protection with latest information available in the relevant field.
Note: T& F does not sell or distribute the hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka. This title is co-published with NIPA
Preface vii
1 Biofertilizers: A Representative Illustration of Plant-Microbe Interaction 1(26)
Soumya Lipsa Rath
Swaraj Mohanty
Debakanta Trzpathy
1.1 Introduction
2(1)
1.2 Biofertilizers
3(12)
1.3 Mechanism of Biofertilizer
15(3)
1.4 Advantages of using biofertilizers over chemical fertilizers
18(2)
1.5 Conclusion
20(1)
References
20(7)
2 Plant Growth Promoting Microbes of Rice and Their Application for Sustainable Agriculture 27(14)
Avishek Banik
2.1 Introduction
28(1)
2.2 Rice microbiome
28(2)
2.3 Different plant growth promoting (PGP) traits
30(5)
2.4 Microbial distribution at different rice niches
35(2)
2.5 Futuristic approaches for application of PGP
37(1)
References
38(3)
3 Role of Biofertilizer in Sustainable Agriculture Enhancing Soil Fertility, Plant Tolerance and Crop Productivity 41(24)
Priyanka Verma
Dheer Singh
Ishwar Prasad Pathania
Komal Aggarwal
3.1 Introduction
42(1)
3.2 Importance of sustainable agriculture
43(1)
3.3 Efficient soil microbes for sustainable agriculture and environment
44(1)
3.4 Impact of biofertilizers on crop productivity
45(1)
3.5 Biofertilizers
46(10)
3.6 Inoculation of Biofertilizers
56(1)
3.7 Mechanisms of biological fertilizers to increase crop yield
56(1)
3.8 Improve Soil Fertility utilized Biofertilizers
57(1)
3.9 Economic Development in Agriculture
58(1)
3.10 Conclusion
58(1)
References
59(6)
4 Role of Plant Growth Promoting Rhizobacteria in Mitigating Salt Stress 65(26)
Priyanka Chandra
Awtar Singh
Madhu Choudhary
R.K. Yadav
4.1 Introduction
66(1)
4.2 Salt affected soils
67(1)
4.3 Adverse effect of salt stress on crops
68(2)
4.4 Salt stress mitigation by plant growth-promoting rhizobacteria (PGPR)
70(1)
4.5 Benefits of plant growth-promoting rhizobacteria (PGPR)
70(5)
4.6 Mechanism of mitigating salt stress
75(7)
4.7 Conclusion
82(1)
References
83(8)
5 Multiple potential traits of PGP Pseudomonas sp. 91(28)
Padmavathi Tallapragada
Kavyashree B.M.
5.1 Introduction
92(1)
5.2 Plant Growth Promoting Rhizobacteria (PGPR)
92(2)
5.3 Biofertilizer
94(1)
5.4 PGP Pseudomonas
95(4)
5.5 Multiple Potential Traits of PGP Pseudomonas
99(11)
5.6 Conclusion
110(1)
References
110(9)
6 Use of Biofertilizers for Sustainable Agriculture 119(18)
Arup Sen
Kaushik Batabyal
Sanchita Mondal
Arindam Sarkar
Dibyendu Sarkar
6.1 Introduction
120(1)
6.2 Efficient soil microbes used as biofertilizers
120(12)
6.3 Conclusion
132(1)
References
133(4)
7 Biological Nitrogen Fixation: Mechanism and Applications 137(16)
Avishek Pahari
Suraja Kumar Nayak
Avishek Banik
Priti Binita Lakra
Bibhuti Bhusan Mishra
7.1 Introduction
138(1)
7.2 Biological nitrogen fixation (BNF): Key to sustainable agriculture
139(1)
7.3 Types of Nitrogen fixation
140(4)
7.4 Nitrogenase enzyme complex
144(1)
7.5 Assimilation and transportation of biologically fix ammonia
145(1)
7.6 Nitrogen fixing bacteria: Biofertilizer formulation and technology
146(2)
7.7 Conclusion
148(1)
References
148(5)
8 Potassium Solubilizing Microorganisms (KSM) A Very Promising Biofertilizers 153(22)
Padmavathi Tallapragada
Titus Matthew
8.1 Introduction
153(1)
8.2 Biofertilizer
154(1)
8.3 Potassium in the soil
155(1)
8.4 Potassium solubilizing microorganisms (KSM)
156(4)
8.5 Potassium solubilizing fungi (KSF)
160(1)
8.6 Mechanism of potassium solubilization by microorganisms
161(1)
8.7 Mass production and quality control
161(6)
8.8 Examples of researched application of KSM
167(3)
8.9 Production of biofertilizer in India
170(2)
References
172(3)
9 Advances in Potassium Nutrition in Crop Plants by Potassium Solubilizing Bacteria 175(26)
Nur Uddin Mahmud
Musrat Zahan Surovy
Dipole Rani Gupta
Md. Tofazzal Islam
9.1 Introduction
176(1)
9.2 Discovery of the elite strains of KSB
177(2)
9.3 Mechanisms of plant K nutrition by bacteria
179(5)
9.4 Formulation and practical delivery of KSB to the crop field
184(2)
9.5 Performances of KSB in promoting growth and yield of crop plants
186(3)
9.6 Molecular genetics of KSB and mechanism of their action
189(1)
9.7 Challenges and opportunities
190(2)
9.8 Conclusion and perspective
192(1)
References
192(9)
10 Nano Biofertilizer for Sustainable Agriculture 201(8)
S. Pati
A. Dash
S. Maity
S. Pattnaik
S. Mohapatra
D.P. Samantaray
10.1 Introduction
201(1)
10.2 Biofertilizer in agriculture
202(1)
10.3 Nano-biofertilizer
203(1)
10.4 Advantages of Nano-biofertilizer
204(2)
10.5 Future prospects of nano-biofertilizer
206(1)
References
206(3)
11 Role of Phosphorus Solubilizing Microorganisms for Sustainable Crop Production 209(12)
Sushanta Saha
Bholanath Saha
Ayon Alipatra
Biplab Pal
Partha Deb Roy
Abhas Kumar Sinha
11.1 Introduction
210(1)
11.2 Functions of phosphorus in plants
210(1)
11.3 Deficiency of phosphorus in plants
211(1)
11.4 Sources of phosphorus in soils
212(1)
11.5 Soil solution phosphorus
212(1)
11.6 Inorganic soil phosphorus
213(1)
11.7 Organic soil phosphorus
213(1)
11.8 Phosphorus cycle
213(1)
11.9 Phosphate Solubilizing Microorganisms (PSM)
214(4)
11.10 Conclusion
218(1)
References
219(2)
12 Plant Growth Promoting Traits Exhibited by Rhizobium Isolated from Different Regions of Odisha 221(16)
Aiswarya Panda
Bibhuti Bhusan Mishra
12.1 Introduction
221(2)
12.2 Materials and Methods
223(1)
12.3 Results And Discussion
224(10)
12.4 Conclusion
234(1)
References
235(2)
Index 237
Bibhuti Bhusan Mishra, Odisha University of Agriculture and Technology, Odisha, India

Suraja Kumar Nayak, Biju Patnaik University of Technology, Odisha, India

Avishek Pahari, Odisha University of Agriculture and Technology, Odisha, India
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