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The journey of organic farming in India is a testament to the nation's commitment to sustainable agricultural practices and environmental stewardship. "Glimpses of Indian Organic Farming" presents a comprehensive exploration of this transformative approach, highlighting the efforts of scientists, farmers, and policymakers dedicated to promoting ecological balance and biodiversity. This book delves into the principles and practices that define organic agriculture, offering a holistic perspective on how traditional wisdom and modern innovations converge to create resilient and sustainable farming systems. Organic farming is more than an alternative agricultural methodology; it is a philosophy that values the health of the soil, the integrity of ecosystems, and the well-being of communities. This preface underscores the importance of understanding the interconnectedness of all components within the agricultural landscape. The book covered some of the unique chapters which are different from that of other published documents. Through chapters that cover topics such as nexus between agroforestry and organic farming, organic livestock production, liquid biofertilizers, efficient non-chemical approaches of biotic stress management, readers will gain insights into the multifaceted benefits of organic farming. These practices not only enhance soil fertility and crop productivity but also mitigate the impacts of climate change and ensure food security.

Organic farming necessitates a shift from conventional to non-chemical agricultural methods and practices. For this, it needs creation of facilities for the production of organic inputs, adoption of crop rotation, green manuring and other best management practices for the organic production of crops and livestock. Further, the ‘towards organic approach’ in intensive agricultural areas and ‘scientific organic farming’ in niche areas have to be implemented for development of an organic farm. The synthesized information on how to convert an inorganic farm into an organic farm followed by its sustainable maintenance is the need of the hour. This chapter holistically deals with designing and maintaing the whole ecosystem organic. 1. Introduction Nowadays, the growers, policymakers and consumers are talking about organic farming (OF) across the globe. For practitioners, it is still a confusion regarding what and how to practice OF. There is a wrong notion that simple addition of organic manures and the use of chemical pesticides for growing different crops is considered as organic farming. In sense real, organic farms are the cultivated fields without addition of chemical fertilizers, pesticides, livestock additives, etc., and only organic and (or) non-chemical methods are practiced, and the concept or practice is known as organic farming. A large number of farms have been converted from conventional into chemical farms during the last more than 50 years by using synthetic chemicals. In view of the increasing demand for organic products and spiraling soil and human health problems, there is need to transform them gradually into organic farms. So that, it can help enhance soil organic carbon status and fertility which in turn can support crop growth and produce healthy foods besides protecting the environment. However, the extent of chemical used might be varying from one farm to another depending on the crops cultivated, nutrient requirement, pest/ disease severity, availability and accessibility to chemical use, socio-economic condition of the farmers, geographical location, etc.

All hybrids and varieties perform better under conventional farming in response to excess use of chemical fertilizers and pesticides, which are harmful to humans, animals and environment. Hence, there is a need to develop varieties/hybrids exclusively for organic farming. Breeding aspects of organic farming include breeding tools/methods which are used to breed varieties/hybrids including testing and multiplication under organic conditions duly following the principles of organic farming as defined by IFOAM. These cultivars should have high nutrient use efficiency, resistance to diseases and pests, competitive ability against weeds, higher yield and stability across environments along with enhanced nutritional quality. This book chapter briefly discusses the aspects of breeding that are involved in generating cultivars suitable for organic farming. 1. Introduction Currently, organic farmers rely heavily on conventionally developed and produced varieties. Nevertheless, in order to optimize their production under organic agriculture, it is necessary to develop cultivars that are more suitable for organic cultivation. According to some studies, the naturalness of organic agriculture should go beyond simply by avoiding chemical inputs and substituting natural and organic components during the transition from conventional to organic farming.

Increased awareness of the importance of quality and nutrient-rich food among the majority of the population created a need for the development of organic production systems and suitable varieties/hybrids for cultivation. The quality of soil, water and air is affected by the overuse of agrochemicals in agriculture. The use of organic varieties helps in reducing the use of various agrochemicals and high-quality pesticides. Organic varieties can address environmental issues and climate change. The world organic seed market is valued at USD 4.2 Bn in 2022 and it is expected to grow at an annual rate of around 8.7% between 2022 and 2031. The demand for organic seeds in the market has created new opportunities for organic farmers. By following standard organic crop production practices and seed certification guidelines, they can produce quality organic seed or planting material on their own farm. 1. Introduction Worldwide, organic agriculture is a rapidly growing sector. The demand for organic food markets is increasing recently with the fast-growing movement of community support for organic agriculture. A total of 96.4 m-ha were grown organically with 2% of the worldwide agricultural land. The region with the most organic agricultural land is Oceania (53.2 m-ha) followed by Europe (18.5 m-ha), Latin America (9.5 m-ha) Asia (8.8 m-ha), North America (3.6 m-ha) and Africa (2.7 m-ha). Australia stands first in area with 53.0 m-ha followed by India (4.7 m-ha) and Argentina (4.1 m-ha) (FiBL & IFOAM, 2024). The global organic farming market will grow from $169.04 billion in 2022 to $287.83 billion in 2027 at a Compound Annual Growth Rate (CAGR) of 11.3% (Organic Farming Global Market Report, 2023).

Organic liquid formulations (OLFs) are agricultural inputs derived from natural sources, designed for use in organic farming. These formulations, consisting of liquid solutions or suspensions containing organic compounds, nutrients, and beneficial microorganisms, play a crucial role in enhancing soil fertility, plant nutrition, and pest management, while promoting environmental sustainability and ecosystem health. Despite their eco friendly nature, OLFs demand careful consideration for their environmental impact and safety. They biodegrade readily, reducing long-term persistence and are less harmful to non-target organisms. While OLFs offer numerous benefits, they also face limitations in potency and effectiveness compared to synthetic pesticides, often requiring more frequent applications and leading to increased labor costs. Their impact can vary with pest species and environmental conditions, and they generally provide gradual rather than immediate pest control. Availability and accessibility can be limited, posing challenges for some farmers. This chapter explores the role of OLFs in achieving success in organic farming, highlighting their benefits and limitations, and emphasizing the importance of Integrated Pest Management strategies and careful consideration of various factors to optimize their use in promoting sustainable agriculture.

Crop residues are valuable natural resources that may be managed to maximize various input use efficiencies. These are a great source of organic materials for improving the soil structure, water holding capacity, the soil's ability to withstand pH variations, increasing the cation exchange capacity, reducing the phosphate fixation, as a storehouse for micronutrients and secondary nutrients especially in organic farming. Organic matter serves as a source of energy for soil fauna and microbes, which are the main agents controlling the decomposition and release of mineral nutrients in organic soil ecosystems. Crop leftovers are frequently burned by farmers, especially after harvest, which depletes the soil's nutrient content and microbial population and produces greenhouse gases. Each year, a sizable amount of crop residue is produced and if used efficiently, they may provide partial or full amount of the nutrient budget required under organic farming for the production of annual or perennial crops besides achieving resource conservation and environmental sustainability. 1. Introduction Crop residues are the non-economic plant parts like straws, stubble, stover etc., that remain in the field after harvesting the economic product. Crop remains from threshing sheds such as groundnut shells, oil cakes, rice husks, corn and sorghum cobs or discarded during crop processing can also be utilized in organic farming. India produces 108.75 MT of wheat, 121.46 MT of rice seed, 30.24 MT of maize seeds, 49.66 MT of millets seeds (jowar, bajra, ragi, and small seed millets), 392.8 MT of sugarcane, 46.11 million bales of fibre crops (jute, mesta, cotton), 25.58 MT of pulses and 36.57 MT of oilseed (Agricultural statistics at a glance, 2021).

Insect pests are responsible for 10.8% of crop losses on an average. Their management is crucial in agriculture to protect crops and boost output. In organic farming systems, preventative measures are taken more often than curative. Understanding the impacts that the local climate, topography, soils, and all other facets of the production system are expected to have on crop performance and potential host/pest complexes is essential for developing successful organic crop protection techniques. Crop rotation, soil health management, host plant resistance, field location, monitoring pests and their natural enemies, vegetation management to enhance natural enemies and exert direct effects on pest populations, releases of bio-control agents and use of approved insecticides of biological origin are highlighted in organic farming in order to reduce pest damage. The safe and environmentally friendly methods for managing the pests in organic farming are discussed in this chapter. 1. Introduction The fundamental tenet of organic pest management is the use of environmentally sound measures as outlined by worldwide and national organic agricultural standards. The emphasis of organic farming's pest management strategies is on the employment of numerous and diverse strategies integrated into the cropping system, which ultimately lowers the pest incidence. Pest and disease options mainly dependent on preventive measures in organic farming rather than curative and maintaining healthy ecosystems is priority. The farmer should have a better grasp of the pests and beneficial organisms that exist in the specific crop ecology when practising organic farming. The farmers must follow a monitoring mechanism in which they may able to act on the pest before they reach devastating levels.

Trichoderma is fungus is well adapted to different ecosystem and identified > 250 species for agricultural use. It is primarily used as a bio-fungicide because of the variety of secondary metabolites produced and applied mainly for biocontrol and bioremediation and growth promotion activities. Bio-control potential of Trichoderma used for the control of soil borne diseases through various mechanisms responsible for broad range of cell wall degrading enzymes, anti-microbial and organic volatile compounds produced by Trichoderma. During abiotic stress, Trichoderma play an important role in plant growth promotion through mobilization of various nutrients. Presently Trichoderma is used as an effective biocontrol agent against plant parasitic nematodes. It is also used for one of the alternate remedy for improving the quality of the soil by removing the heavy metal in agricultural field, makes them suitable for cultivation. 1. Introduction Trichoderma is one of the genus of fungus species which belongs to Ascomycetes (Order Hypocreales) present in diverse soil ecosystems, colonise under various agro ecological niches and most of the prevalent are culturable microorganism. They are primarily used as efficient biocontrol agents against a variety of soil-borne plant diseases. However, they have also shown potential in processes like bioremediation, promoting plant growth, and managing nematode populations.

The concept of insect pest management and the strategies employed have evolved over the time. With the increased emphasis on safe agricultural practices and elevated demand for safe and healthy food, the various solutions for pest management have shifted more towards use of biocontrol agents. Bio- rational pest management methods have now evolved as important pillar of the integrated pest management to replace the synthetic insecticides and also other associated advantages. They include the use of botanical pesticides, insect growth regulators, pheromones and allelochemicals. The major positive attributes associated with all of them are their low mammalian toxicity, safety to beneficial and non-target organisms, higher specificity, low risk of development of resistance and low environmental persistence. Though bio-rational insecticides are considered to be safe, in an organic ecosystem, it should be done with caution because over reliance on them for longer periods may facilitate the target insect pests to develop some kind of resistance against them. So, proper deliberations on the positive and negative attributes of bio rational pest management strategies should be done so as to facilitate their long term usage in organic farming.

Since many years, there has been an extensive use of synthetic pesticides against which has caused pest resistance, resurgence, residues environmental problems and toxicity to non-target organisms. Therefore, attention is given towards the alternate methods which are ecologically, economically sustainable. Botanical pesticides that control insects by using plant oils and extracts have proven to be the most effective. As they have promising role in organic farming, they help in reduction of pest load and improve crop quality and thereby increase crop yield without disturbing the environment and helps in maintaining the balance of natural ecosystems. This book chapter, discuss about the active functional ingredients of each botanical pesticide and mode of action, its importance in organic farming, their commercial formulations, major insect pests suppressed or controlled, their challenges in usage in agriculture and horticulture and its future prospects. 1. Introduction Synthetic pesticide use has caused pest resistance, environmental problems and toxicity to non-target organisms. It is essential to follow alternate methods because these synthetic pesticides have led to acute and chronic poisoning in farm workers, applicators, and even customers. Employing botanical pesticides, is the most effective way to replace the widespread use of synthetic pesticides, is one of the important alternative strategies. Among them, plant-based bio pesticides that control insects by using plant oils and extracts have proven to be the most effective. Botanicals being natural and non-toxic to humans, animals, and the environment, have a significant role in organic farming as they help in promoting plant growth, controlling pests and diseases, and enhancing soil health. The use of botanicals is an essential component of organic farming as it helps in maintaining the balance of natural ecosystems, improves crop quality, and increases yield without the negative impacts of synthetic chemicals. As the use of synthetic pesticides and fertilizers is prohibited in organic agriculture. Organic farmers rely on natural methods to protect their crops from pests, diseases, and weeds. The beneficial insects, crop rotation, and natural remedies such as neem oil or garlic sprays are used to protect the crops. The use of natural methods to manage pests and diseases promotes biodiversity, maintains soil health, and minimizes the environmental impact of farming. Thus, plant protection is crucial in organic farming to ensure sustainable and responsible agriculture practices.

Globally, organic oilseeds constitute an important element in organic production. Their products are important feedstuffs (oilcake) and also relevant for human consumption (soya products, oils), and demand for these is continually growing. Almost half of the global organic oilseed area is occupied by soybeans, and another almost 20% is for sunflower seeds and sesame. Rape and turnip rape constitute about 6% of the organic oilseed area. Oilseeds are of pivotal significance in the Indian agricultural economy supporting income of millions of farmers practicing mainly rainfed cultivation. Nine annual oilseed crops are cultivated in India that includes groundnut, rapeseed-mustard, soybean, sunflower, sesame, niger and safflower that are edible and non-edible oilseed crops include castor and linseed. Organic agriculture is one among the broad spectrum of production methods that are supportive of the environment. The principal method of organic farming includes crop rotation, green manures and composts, biological pest control and reduced tillage. The performance of annual edible oilseed crops and development of package in relation to organic management for sustainable agriculture are discussed in this chapter. 1. Introduction In India, both annual and perennial edible oilseed crops are cultivated. Annual edible oilseed crops include groundnut, rapeseed-mustard, soybean, sunflower, sesame, niger and safflower. India, the 4th largest vegetable oil economy in the world, stands first in the production of castor, sesame, safflower, and niger oils, whereas second in groundnut, third in rapeseed mustard, fourth in linseed and fifth in soybean oil. About 14 million farmers are engaged in oilseeds production and another million in their processing. Whereas, the perennial edible oil seed crops include oil palm and coconut. Edible oils are also produced domestically from secondary sources such as rice bran, cotton seed, corn, and other tree-borne oilseeds (TBOs), besides some minor oil producing species of forest origin.

Organic farming in groundnut cultivation is gaining global recognition as an environmentally sustainable and socially responsible approach. Groundnut is a versatile crop with high nutritional value and economic importance. This chapter explores the principles and practices involved in organic groundnut farming. It focussed on soil management, organic fertilization, pest, disease and weed management without using synthetic chemicals. This approach minimizes impact on the environment and reduces the presence of pesticide residues in the final produce. Moreover, organic practices help maintain soil health, conserve biodiversity and reduce environmental pollution. Thus, farmers can produce high quality groundnuts and fetch higher price and profits. 1. Introduction The groundnut (Arachis hypogaea L.) is known by different names such as monkey nut, goober, earth nut etc., and belongs to leguminosae family. It produces flowers above ground but the fruits/pods underground (Sanders, 2003). It can be grown successfully in tropical and sub-tropical regions of the world. Globally, groundnut covers 32.7 M ha with a production of 53.9 MT with a productivity of 1648 kg ha-1 (FAOSTAT, 2021). Among the developing countries, Egypt has the highest productivity of groundnut with 2.70 t ha-1 (Nautiyal, 2001). Globally, India ranks first in groundnut area (5.42 m-ha) and is the second largest producer in the world with 10.1 MT with a productivity of 1863 ha-1 in 2021-22 (agricoop.nic.in). India ranks second next to China (34%) with 19% of world groundnut production in 2021. Gujarat is the largest producer contributing 36% of the total production of groundnut followed by Rajasthan (17%) and Tamil Nadu (7.5%). Groundnut accounts for 18% area and 26.8% production of the total oilseeds in India (CARP, 2022).

The unsustainable, faulty, environmentally detrimental modern agricultural practices and their plausible deleterious effects on one side and challenges like global climate change, ever shrinking land and water resources and loss of biodiversity on the other hand are the main problems that Agriculture is facing. Hence, there is a need to adopt a set of ecofriendly and climate smart practices to achieve sustainable development goals (SDGs). Agroforestry and organic farming (farming without chemicals) are the two important concepts projected to mitigate the effects of climate change, enhance soil health, encourage crop diversification, promoting biodiversity and achieving climate resilience. We made an attempt to synthesize the available information on the role of agroforestry in promotion of organic farming. 1. Introduction Agroforestry is a land use system that integrates trees, crops and animals in a way that is scientifically sound, ecologically desirable, practically feasible and socially acceptable to the farmers (Nair, 1979). It is a collective name for land use systems and technologies, where woody perennials (trees, shrubs, palms, bamboos, etc.) are deliberately used on the same piece of land management units as agriculture crops and/or animals in some form of spatial arrangement or temporal sequence. It includes both ecological and economical interactions among the different components. Nearly 43% of world’s agricultural land has at least 10% tree cover, which suggests that agroforestry is widespread and infact, it is present in all continents. Agroforestry accounts for nearly 45.4 m-ha globally and 23.25 m-ha of land in India (Rizvi et al., 2019; Anonymous, 2020).

1. Introduction In India, though organic crop production and certification system is reasonably well established in India, the organic livestock and poultry sector is in its budding stage. Organizations such as APEDA, FSSAI and BIS along with research establishments like ICAR- National Meat Research Institute are now putting serious efforts to establish the protocols and promote organic livestock production and certification in India. As a result, in the last few years, livestock farmers are gradually getting encouraged to take up organic production and around 3000 farmers mostly from Uttar Pradesh, Madhya Pradesh and Himachal Pradesh have taken up organic dairy, sheep and poultry farming. Export of organic milk and ghee from India to different countries has just begun and is expected to grow very fast in volumes and revenues in the years to come.  

Agricultural sector, with the technological advancements, is also contributing to global climate change, loss of biodiversity and degradation of resources. Further, there is a serious global concern about chemical residues, healthy food and healthy planet earth. Organic and natural farming are acclaimed to be the best alternative non-chemical production pathways to reverse the ill effects of modern agriculture. However, these systems are not contemplated to meet the food security and other requirements of ever-growing human population, particularly in developing countries. In this chapter, based on the available and documented protocols and production practices of these systems, the additional research, extension and policy needs to strengthen these production pathways to attain economic, ecological and social sustainability are discussed while considering the Sustainable Developmental Goals (SDGs) of United Nations.

Organic food sales increased steadily from the late 20th century. Greater environmental awareness, coupled with concerns over the health impacts of pesticide residues and consumption of genetically modified (GMO) crops, fostered the growth of the organic sector. Realizing the benefits of organic food, especially after COVID-19, consumers are also demanding organically grown food and fiber and are willing to pay premium price. But to tap the market, there is an inevitable need for certification. Recently launched Food Safety and Standards (Organic Food) Regulation, 2017 mandates that all food products sold as organic must be certified and comply the basic requirements of the Act. The organic food offered or promoted for sale shall also comply with all the applicable provisions of either National Programme for Organic Production (NPOP) or Participatory Guarantee System for India (PGS India). Organic certification is a process certification. The requirement to confirm that the product is organic include labelling on the package and traceability for both domestic and export needs to be understood. For import and export of organic produce, transaction certificate issued by an Accredited Certification Body is required. These requirements are essential for fresh and processed food items. In this chapter, we tried to eloborate the process and procedures for organic certification.

1. Introduction Organic farming is gaining a lot of importance in recent years owing to raising awareness among the consumers of the agricultural commodities about the health concerns of the indiscriminate use of chemical fertilizers and pesticides (Anonymous 2015; Lakhsman et al., 2024). The increasing demand for organically produced agricultural commodities and the premier prices have attracted the farmers’ interest and motivated them to switch over to organic production systems. The shifting to organic farming by the farmers needs careful consideration of several issues starting from the suitability of soils, selection of crops, adoption of package of practices, processing, storage and marketing. There are several finer aspects which the farmers have to gloss over before they decide to change their production system to organic farming. Although the broad contours are known to all the farmers, there is a need to look into the research findings in the areas of farmers’ interest for changing over to organic farming. The research evidence on the practical viability in a newer area will boost the confidence of the farming community for undertaking the organic farming. It further helps in systematic planning by the policy makers. The traditional research carried out with the modern agricultural practices may not be appropriate for organic farming. There are fundamental differences in the approaches followed in the organic farming research where the emphasis is on using all the natural resources in a complementary way so that there is hardly any need for synthetic inputs in the form of fertilizers and pesticides. It calls for systematic inventorization of resources available and additional organic inputs needed to make organic farming successful. It begins with assessing the suitability of soils, agro-climatic conditions, selection of crops, adoption of management practices, harvesting, processing, storage and marketing of organically-produced food commodities. The practical feasibility, economic viability and social acceptability of organic farming in newer areas need to be established through sound organic farming research before it is taken to the farming community.