Your search keyword '"Venkatesh, Paramesh"' showing total 74 results

1. Optimizing crop nutrition in rainfed castor cultivation for higher productivity, energy efficiency, and reduced carbon footprint

Author

Revappa Mohan Kumar, Yamanura Madival, Venkatesh Paramesh, Nagesha Narayanappa, Gopalaswamy Ranganath, Dinesh Jinger, and Sangappa Chillarge

Subjects

Balanced-nutrition, Fertilizer, Foliar-nutrition, Factor-productivity, Environmental sciences, GE1-350

Abstract

Nutrition plays a key role in achieving higher crop productivity. Whereas, rainfed cropping greatly suffers due to imbalanced crop nutrition. Especially, crops like castor mostly face the utmost climatic and edaphic distress as it is predominantly cultured in poor soil of rainfed regions. Therefore, to know the performance of the rainfed castor to balanced nutrient management modules, a field experiment was conducted for two consecutive Kharif seasons in 2020 and 2021. Crop responded favorably to the balanced nutrition. We observed substantial improvement in seed yield (44%), oil yield (49%), gross return (54%), and net return (133%) with the application of the recommended dose of fertilizer (RDF) + 20 kg ZnSO4 ha−1 along with foliar spray of 2% water soluble complex fertilizer (WSCF) @ 40 days after sowing (DAS). + over soil application of RDF and 125 % RDF. Due to better crop response in terms of growth and yield, rainwater use efficiency (RWUE), partial factor productivity (PFP), and agronomic efficiency (AE) were also higher with RDF + 20 kg ZnSO4 ha−1 along with a foliar spray of 2% WSCF @ 40 DAS. Application of 125 % RDF showed enhanced energy consumption (11429 MJ ha−1). While RDF +20 kg ZnSO4 ha−1 along with a foliar spray of 2% WSCF @ 40 DAS showed 45% and 17% higher energy output compared to the RDF and 125% RDF. Due to higher energy output, the same treatment exhibited 55 and 21 % higher net energy gain over RDF and 125% RDF, respectively. As per as the carbon (C) footprint is concerned, RDF + 20 kg ZnSO4 ha−1 along with a foliar spray of 2% WSCF @ 40 DAS was observed to be slightly C expensive with 8 % higher carbon input due to higher rates of manpower and machinery utilized. However, it displayed higher C output (45%), net C gain (56%), C efficiency ratio (33%), C efficiency (37%), and C sustainability index (32%) indicating efficient C management over RDF. Overall, RDF +20 kg ZnSO4 ha−1 along with foliar spray of 2% WSCF @ 40 DAS appeared to be the productive, profitable, energy efficient, and even favorable in respect of C footprint than soil application of RDF or 125 % RDF.

Published

2024

2. Piper agroforestry in the Indian Himalayas: indigenous peoples’ practices, policies and incentives

Author

Demsai Reang, Animekh Hazarika, Gudeta Weldesemayat Sileshi, Arun Jyoti Nath, Venkatesh Paramesh, W. Reshmi Singha, and Ashesh Kumar Das

Subjects

Deforestation, Indigenous people, Nature-based solutions, Shifting cultivation, Sustainable development, Agriculture (General), S1-972

Abstract

Abstract Background Indigenous populations across the world play a significant role in sustainable land management and conservation of biodiversity. However, indigenous agricultural practices are rarely studied in depth and remain poorly documented in many regions of the world. Documenting such practices and identifying policies and incentives that affect them can unlock their potential for better land management and biodiversity conservation. Methods We undertook household surveys and focus group discussions to document indigenous practices and the values of trees in Piper (Piper betle) agroforestry practiced by the ethnic Khasi (Pnar) community in the Indian Eastern Himalayas. We also undertook an in-depth vegetation sampling to quantify variations in phytosociology and tree diversity with stand age in Piper agroforestry and nearby native forests. In addition, we undertook strengths, weaknesses, opportunities and threats (SWOT) analysis and a desk review to identify policies, market support structures and incentives affecting cultivation of Piper, a cash crop of global importance. Results Unlike in shifting cultivation, indigenous people do not fell trees in the Piper agroforestry; instead, they allow trees to regenerate naturally and also enrich by planting tree seedlings in the gaps. Depending on the stand age, 30–49 tree species were recorded in the Piper agroforestry compared to 39 in nearby natural forests. While tree density was higher in the natural forests, greater species richness, diversity and basal area was recorded in > 25 years old Piper agroforestry stands. However, landholders do not have legally transferable or heritable rights to the land or trees. Conclusion It is concluded that the Piper agroforestry provides a pathway for averting land degradation due to shifting cultivation, biodiversity conservation and improving livelihoods of the indigenous community. Although existing policies are supportive, Piper agroforestry is not currently benefiting from incentives and market support structures. We recommend implementation of policies, market support structures, incentives and payment for ecosystem services so that indigenous communities can benefit from the global ecosystem services they provide.

Published

2024

3. The transition from shifting cultivation to indigenous agroforestry as nature-based solution for land restoration in the Indian Eastern Himalayas

Author

Animekh Hazarika, Bandana Kurmi, Rosa Francaviglia, Gudeta Weldesemayat Sileshi, Venkatesh Paramesh, Ashesh Kumar Das, and Arun Jyoti Nath

Subjects

Carbon storage, Ecosystem services, Deforestation, Land degradation, Modified clay ratio, Ecology, QH540-549.5

Abstract

In the Indian Eastern Himalayas, shifting cultivation has long been a major cause of land degradation. However, indigenous communities, like the Hmar, have successfully transitioned from shifting cultivation to agroforestry systems such as pineapple agroforestry, leading to land restoration and increased household incomes. Despite these positive outcomes, little is known about how soil health indicators change during this transition. Thus, the present study aimed to investigate changes in selected soil health indicators and erodibility across different age classes of pineapple agroforestry systems ( 15 years old) compared to shifting cultivation and nearby natural forests. Soil samples were collected from six sites, including different stages of pineapple agroforestry systems, shifting cultivation phases, and a natural forest. At each site, three (10 × 10 m) quadrats were selected, and two (1 × 1 × 1 m) vertical soil pits were dug in each quadrat, sampling soil depths from 0 to 100 cm. The transition from shifting cultivation to pineapple agroforestry improved soil organic carbon (SOC) and stratification ratios while reducing soil erodibility. SOC stocks were estimated at 182.7 Mg C/ha for natural forest land and 188.2 Mg C/ha for the cropping phase in shifting cultivation. On the other hand, estimated SOC stocks for 15 years old stands of pineapple agroforestry system were 169.7 Mg C/ha, 157.2 Mg C/ha, 168.9 Mg C/ha and 177 Mg C/ha respectively. Thus, the estimated SOC stocks under > 15 years of pineapple agroforestry were comparable with adjacent natural forest land. The stratification ratios (SR > 2) for SOC and macronutrients indicated better soil quality in the pineapple agroforestry system than in the cropped land. The clay and modified clay ratios decreased with increasing age of pineapple agroforestry stands. The highest clay ratio was recorded in the topsoil of

Published

2024

4. Soil moisture dynamics, rooting traits, crop and water productivity of wheat under different tillage, irrigation and nutrition conditions

Author

Gandhamanagenahalli A, Rajanna, Dass, Anchal, Venkatesh, Paramesh, Choudhary, Anil K., Upadhyay, Pravin K., Chandrashekar, Ajay B., Francaviglia, Rosa, Sannagoudar, Manjanagouda S., Rangappa, Umesh M., Singh, Vinod K., Harish, Mukanara N., and Shyam, Chunchanahalli S.

Published

2024

5. COVID-19, deforestation, and green economy

Author

Vibha Singhal, Dinesh Jinger, Avinash Chandra Rathore, Rama Pal, Ipsita Samal, Tanmaya Kumar Bhoi, Venkatesh Paramesh, Shah Fahad, Lukasz Jaremko, Nader R. Abdelsalam, and Mariusz Jaremko

Subjects

COVID 19, deforestation, green economy, reverse migration, ecotourism, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

Corona has severely impacted many sectors in the past 2. 5 years, and forests are one of the major hits among all sectors affected by the pandemic. This study presents the consolidated data on deforestation patterns across the globe during COVID and also analyzes in depth the region-specific contributing factors. Exacerbated deforestation during COVID alarms biodiversity conservation concerns and pushes back the long-term efforts to combat pollution and climate change mitigation. Deforestation also increases the risk of the emergence of new zoonotic diseases in future, as deforestation and COVID are intricately related to each other. Therefore, there is a need to check deforestation and inculcation of conservation measures in building back better policies adopted post-COVID. This review is novel in specifically providing insight into the implications of COVID-19 on forests in tropical as well as temperate global regions, causal factors, green policies given by different nations, and recommendations that will help in designing nature-based recovery strategies for combating deforestation and augmenting afforestation, thus providing better livelihood, biodiversity conservation, climate change mitigation, and better environmental quality.

Published

2024

6. Impact of conservation practices on soil quality and ecosystem services under diverse horticulture land use system

Author

Avinash Chandra Rathore, Charan Singh, J. Jayaprakash, Anand Kumar Gupta, Vijay Kumar Doharey, Dinesh Jinger, Deepak Singh, Devideen Yadav, Anupam Barh, Sadikul Islam, Avijit Ghosh, Darshan Kadam, Venkatesh Paramesh, Abimanyu Jhajhria, Vibha Singhal, Rama Pal, and M. Madhu

Subjects

fruit yield, land degradation, rehabilitation, soil organic carbon, soil quality index, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

The 20-year study investigated the effects of conservation practices (CPs) and farmers' practices (FPs) on various soil quality parameters, yield, and economics of horticultural land use systems. CPs demonstrated significant improvements in soil organic carbon (SOC), available nitrogen (N), phosphorus (P), and potassium (K), compared to FPs. Horticultural systems exhibited higher SOC and available N and P contents than FPs, with substantial variations among different fruit species. CPs also enhanced soil quality index, functional diversity, culturable microbial populations, enzyme activity, and soil microbial biomass carbon (SMBC) compared to FPs. It was observed that the SMBC values were 25.0–36.6% and 4.12–25.7% higher in 0–15 cm and 15–30 cm, respectively, under CPs compared to FPs for all the land use systems. In CPs, dehydrogenase activities (DHAs) in surface soils were 9.30 and 7.50 times higher under mango- and citrus-based horticultural systems compared to FPs. The CPs adopted in aonla, guava, mango, litchi, and citrus-based horticultural systems increased SOC by ~27.6, 32.6, 24.4, 26.8, and 22.0%, respectively, over FPs. Canopy spread, fruit yield, litter yield, and soil moisture were significantly higher in fruit-based horticultural systems under CPs. Economic viability analysis indicated higher net present values (NPVs), benefit-cost ratio (BCR), and shorter payback periods (PBPs) for horticultural land use systems under CPs. Principal component analysis (PCA) revealed that CPs had a more positive influence on soil parameters, particularly DHA, acid and alkali phosphatase activity, available N, P, and K contents, soil microbial load, and organic carbon. The maximum ecosystem services were contributed through mango-based land uses among all land uses. Mango-based horticultural systems exhibited the least impact from both CPs and FPs, while peach-based systems were most affected by CPs. Overall, the findings highlight the benefits of conservation practices in improving soil quality, microbial populations, enzyme activity, and crop productivity in horticultural systems.

Published

2023

7. Nitrogen management sensor optimization, yield, economics, and nitrogen use efficiency of different wheat cultivars under varying nitrogen levels

Author

Bipin Kumar, Shaloo, Himani Bisht, M. C. Meena, Abir Dey, Anchal Dass, Venkatesh Paramesh, Subhash Babu, Pravin Kumar Upadhyay, Vijay Kumar Prajapati, Aniket Chandanshive, Truptimayee Suna, Sunil Kumar Yadav, Ashok Kumar Saini, Neeta Dwivedi, Pothula Srinivasa Brahmanand, and Amit Kumar Jha

Subjects

efficiency, GreenSeeker, LCC, nitrogen, nutrient, management, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Excessive application of nitrogen (N) in wheat cultivation results in substantial decreases in yield and limited economic gains, leading to adverse environmental consequences. In this study, the main objective is to assess and optimize the values of different N-assessing tools at varying levels of N for three wheat cultivars. Three non-destructive sensing devices: Leaf color chart (LCC), soil plant analyzer development (SPAD), and Green Seeker, were optimized at three levels of N (0, 90, 120, and 150 kg N ha−1) in three wheat cultivars, HD 2967, HD 3059, and HD 3086. The results indicated that at 60 days after sowing (DAS), the optimum values for LCC, SPAD, and GreenSeeker were 4.17, 0.62, and 44.2, respectively. These values were observed at the flag leaf stage, where they measured 4.12, 0.60, and 43.8, respectively, and this could be achieved at 120 kg N ha−1 with a grain yield of 4.87 t ha−1. At 120 kg N ha−1, considerably better gross return (Rs. 97,444.4), net income (Rs. 66,681.4), and B:C ratio (2.2) were obtained. The highest agronomic efficiency of N (21.2%) was recorded at 120 kg N ha−1, while the N uptake and recovery (129 kg ha−1 and 59.2 %) were significantly higher, recorded at 150 kg N ha−1. We can conclude that optimized values of these sensors at different doses of N would provide better guidance for precision N management that may reduce the input cost, maximize return, and minimize N losses in wheat.

Published

2023

8. Variation in plant traits and nutrient uptake among banana varieties in shaded agroecology under areca nut canopy

Author

Vadivel Arunachalam, Saloni Salil Vanjari, Venkatesh Paramesh, Shashi Vishwakarma, Dnyanda C. Prabhu, Andrea V. Dsouza, and Cristabel M. Fernandes

Subjects

leaf width, musa, phenology, potassium balance, shade tolerance, yield, Agriculture

Abstract

Banana is an excellent companion crop cultivated with coconut, areca nut, coffee, or cacao. The yield performance of bananas however differs due to cultivar response to light, water, and nutrient availability in the intercropping system. The current study aims to understand the performance of different banana varieties under the areca nut shaded system by trait variation in growth, phenology, fresh bunch mass (yield), and soil nutrient balance patterns. Five banana varieties were screened in a field experiment in a high-density areca garden for vegetative traits, phenology, yield components, and nutrient budgets. Variety Amti recorded wider leaves and greater leaf area and also recorded higher bunch yield in plant and first ratoon crop than other varieties. The Velchi variety recorded the highest leaf emergence rate during winter and recorded the highest percentage of plants with a bunch in both the plant and first ratoon crops. The study revealed nutrient mining of nitrogen, phosphorous, and potassium in the areca–banana system. The effective balance of the available soil phosphorus was found to be highly negative for Grand Nain (−50.3 kg·ha−1·year−1) and negative (−23.6 kg·ha−1·year−1) for Amti. The results reveal the role of choice variety, indicator traits, and nutrient management strategies in enhancing banana productivity in agroforestry systems.

Published

2023

9. Integrated nutrient management for improving crop yields, soil properties, and reducing greenhouse gas emissions

Author

Venkatesh Paramesh, R. Mohan Kumar, G. A. Rajanna, Sathish Gowda, Arun Jyoti Nath, Yamanura Madival, Dinesh Jinger, Shripad Bhat, and Sulekha Toraskar

Subjects

agroecosystem, crop nutrition, greenhouse gas, nutrient management, soil health, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Recently, most agrarian countries have witnessed either declining or stagnant crop yields. Inadequate soil organic matter (SOM) due to the poor physical, chemical, and biological properties of the soil leads to an overall decline in the productivity of farmlands. Therefore, the adoption of integrated nutrient management (INM) practices is vital to revive sustainable soil health without compromising yield potential. Integrated nutrient management is a modified nutrient management technique with multifarious benefits, wherein a combination of all possible sources of plant nutrients is used in a crop nutrition package. Several studies conducted in various parts of the world have demonstrated the benefits of INM in terms of steep gain in soil health and crop yields and at the same time, reducing greenhouse gas emissions and other related problems. The INM practice in the cropped fields showed a 1,355% reduction in methane over conventional nutrient management. The increase in crop yields due to the adoption of INM over conventional nutrient management was as high as 1.3% to 66.5% across the major cropping systems. Owing to the integration of organic manure and residue retention in INM, there is a possibility of significant improvement in soil aggregates and microbiota. Furthermore, most studies conducted to determine the impact of INM on soil health indicated a significant increase in overall soil health, with lower bulk density, higher porosity, and water-holding capacity. Overall, practicing INM would enhance soil health and crop productivity, in addition to decreasing environmental pollution, greenhouse gas emissions, and production costs.

Published

2023

10. Farm typology of smallholders integrated farming systems in Southern Coastal Plains of Kerala, India

Author

Anitrosa Innazent, D. Jacob, J. S. Bindhu, Brigit Joseph, K. N. Anith, N. Ravisankar, A. K. Prusty, Venkatesh Paramesh, and A. S. Panwar

Subjects

Medicine, Science

Abstract

Abstract Adoption of an integrated farming system (IFS) is essential to achieve food and nutritional security in small and marginal holdings. Assessment of IFS to know the resource availability and socio-economic condition of the farm household, farm typology plays a critical role. In this regard, a sample survey of 200 marginal households practicing mixed crop-livestock agriculture was conducted during 2018–2019 at Southern Coastal Plains, which occupies 19,344 ha in Thiruvananthapuram district, Kerala, India. Farming system typology using multivariate statistical techniques of principal component analysis and cluster analysis characterized the diverse farm households coexisting within distinct homogenous farm types. Farming system typology identified four distinct farm types viz. resource constrained type-1 households with small land owned, high abundance of poultry, very low on-farm income, constituted 46.5%; resource endowed type-2 households oriented around fruit and vegetable, plantation crop, with a moderate abundance of large ruminant and poultry, high on-farm income, constituted 12.5%; resource endowed type-3 household oriented around food grain, extensive use of farm machinery, with a moderate abundance of large ruminant, low on-farm income, constituted 21.5%; and resource endowed type-4 household oriented around fodder, with high abundance of large ruminant, medium on-farm income, constituted 19.5% of sampled households. Constraint analysis using constraint severity index assessed the severity of constraints in food grain, horticulture, livestock, complementary and supplementary enterprises in each farm type, which allowed targeted farming systems interventions to be envisaged to overcome soil health problems, crops and animal production constraints. Farming system typology together with constraint analysis are therefore suggested as a practical framework capable of identifying type-specific farm households for targeted farming systems interventions.

Published

2022

11. Degraded land rehabilitation through agroforestry in India: Achievements, current understanding, and future prospectives

Author

Dinesh Jinger, Rajesh Kaushal, Raj Kumar, Venkatesh Paramesh, Archana Verma, Monika Shukla, Sangram Bhanudas Chavan, Vijaysinha Kakade, Sneha Dobhal, Appanderanda Ramani Uthappa, Trisha Roy, Vibha Singhal, Madhu Madegowda, Dinesh Kumar, Poonam Khatri, Dhakshanamoorthy Dinesh, Gaurav Singh, Ashok Kumar Singh, Arun Jyoti Nath, Neeshu Joshi, Ekta Joshi, and Sanju Kumawat

Subjects

acidic soils, carbon sequestration, mined area, ravine lands, soil erosion, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Land degradation is one of the most important factors responsible for the alarming situation of food security, human health, and socioeconomic development in the country. Currently, 120.7 M ha of land in the country is affected by land degradation, out of which 85.7 M ha of land is affected by soil erosion caused by water and wind. Moreover, physical, chemical, and biological degradation are the major forms of land degradation in the country. Deforestation or tree cover loss (2.07 M ha) from 2001 to 2021, intensive rainfall (>7.5 mm ha−1), uncontrolled grazing (5.65 M ha), indiscriminate use of fertilizers (32 MT year−1), and shifting cultivation (7.6 M ha) are other major factors that further aggravate the process of land degradation. In order to alleviate the problem of land degradation, numerous agroforestry technologies have been developed after years of research in different agroclimatic zones of the country. The major agroforestry systems observed in the country are agri-horticulture, silvipasture, and agri-silviculture. This review indicates the potential of agroforestry in enhancing carbon sequestration (1.80 Mg C ha−1 year−1 in the Western Himalayan region to 3.50 Mg C ha−1 year−1 in the island regions) and reduced soil loss and runoff by 94% and 78%, respectively, in Northeast India. This can be concluded that the adoption of the agroforestry system is imperative for the rehabilitation of degraded lands and also found to have enough potential to address the issues of food, environmental, and livelihood security. This review’s findings will benefit researchers, land managers, and decision-makers in understanding the role of agroforestry in combating land degradation to enhance ecosystem service in India and planning suitable policies for eradicating the problem effectively.

Published

2023

12. Integrated Nutrient Management Enhances Yield, Improves Soil Quality, and Conserves Energy under the Lowland Rice–Rice Cropping System

Author

Venkatesh Paramesh, Parveen Kumar, Tejasvi Bhagat, Arun Jyoti Nath, Kallakeri Kannappa Manohara, Bappa Das, Brijesh Fal Desai, Prakash Kumar Jha, and P. V. Vara Prasad

Subjects

energy analysis, farmyard manure, Goa, integrated nutrient management, soil health, Agriculture

Abstract

Identifying sustainable crop production systems that improve yield from existing farmland while improving resource use efficiency is critical to meet the growing demands of the increasing human population and diminishing natural resources. Considering the increasing cost associated with inorganic fertilizer, integrated nutrient management using both organic and inorganic sources is important. Therefore, optimizing nutrient management practices that increase yield, improve soil quality, build up soil organic carbon storage, and maintain energy balance can help achieve sustainability in farming systems. In this regard, different nutrient management practices under the rice–rice (Oryza sativa L.) cropping system were evaluated using five different criterions, namely, (i) crop yield response, (ii) soil quality, (iii) soil carbon stock, (iv) energy efficiency, and (v) profitability under lowland situations in the Goa state situated in the western coast of India. We tested six nutrient management treatments, namely, inorganic fertilizers, organic (farmyard manure), rice straw, and their combinations over three years from 2016 to 2019. The results revealed that integrated nutrient management improved soil carbon stock, microbial biomass carbon, and soil fertility more than the other treatments. The integrated use of farmyard manure and chemical fertilizer showed significantly higher crop yield (9.86 v/s 9.41 Mg ha−1), microbial biomass carbon (354 v/s 233.7 mg kg−1 soil), soil carbon stock (36.65 v/s 25.5 Mg C ha−1), energy efficiency (23.8 v/s 22.3), and net return (1776 v/s 1508 USD) than those associated with chemical fertilizer alone. We conclude that the application of chemical fertilizers/organic sources alone may not be sustainable for the rice–rice cropping system in the Goa state of India; the focus should be on integrated nutrient management systems.

Published

2023

13. Carbon Sequestration Potential of Commercial Agroforestry Systems in Indo-Gangetic Plains of India: Poplar and Eucalyptus-Based Agroforestry Systems

Author

Sangram Bhanudas Chavan, Ravinder Singh Dhillon, Chhavi Sirohi, Appanderanda Ramani Uthappa, Dinesh Jinger, Hanuman Singh Jatav, Akash Ravindra Chichaghare, Vijaysinha Kakade, Venkatesh Paramesh, Sushil Kumari, Dinesh Kumar Yadav, Tatiana Minkina, and Vishnu D. Rajput

Subjects

biomass production, climate change, land degradation, litter decomposition, Plant ecology, QK900-989

Abstract

Climate change, land degradation, and desertification lead to the loss of carbon present in the soil and plants. The carbon dioxide (CO2) concentration in the atmosphere has reached 412 ppm. This is a rise of 47% since the start of the industrial period, when the concentration was close to 280 ppm. Therefore, the sequestration of carbon from the atmosphere to earth is the need of the hour. Many scientists have suggested agroforestry as a potent instrument for climate change mitigation as well as to fetch lucrative benefits. The Indian government is also promulgating tree-based systems for increasing tree cover up to 33% of the total geographical area to mitigate climate change. Therefore, the expansion of the commercial agroforestry system of fast-growing tree species producing higher biomass could be a sustainable and ecologically benign technique to sequester carbon, increase green cover, and improve the financial status of farmers. This review highlights the commercial agroforestry systems, biomass and carbon sequestration potential, and case studies of poplar and eucalyptus. The species such as poplar (Populus deltoides), nilgiri (Eucalyptus spp.), subabul (Leucaena leucocephala), tree of heaven (Ailanthus excelsa), willow (Salix spp.), malabar neem (Melia dubia), cadamba (Neolamarckia cadamba), and white teak (Gmelina arborea) are the suitable tree species for carbon sequestration under agroforestry. Among these species, poplar and eucalyptus are major agroforestry tree species that have been adopted by millions of farmers in India since the 1990s. Indo-Gangetic plains are considered the birthplace of commercial or industrial agroforestry, as poplar and eucalyptus are widely planted. This review reports that poplar and eucalyptus have the potential to sequester carbon stock of 212.7 Mg C ha−1 and 237.2 Mg C ha−1, respectively. Further, the net carbon sequestration rate in poplar and eucalyptus was 10.3 and 12.7 Mg C ha−1 yr−1, respectively. In conclusion, the commercial agroforestry system was very successful in the Indo-Gangetic regions of the country but needs further expansion with suitable compatible crops in different parts of the country.

Published

2023

14. Bi-cropping of castor bean and nutri-millets optimizes system productivity, energy efficiency, and carbon footprint in rainfed alfisols of semi-arid tropics.

Author

Mohan Kumar, Revappa, Yamanura, Madival, Venkatesh, Paramesh, and Narayanappa, Nagesha

Subjects

ECOLOGICAL impact, CASTOR beans, RAGI, ENERGY consumption, ALFISOLS, LYOTROPIC liquid crystals

Abstract

Intercropping enhances diversity, productivity, resilience, and soil health. To achieve these benefits of the intercropping system, drilling patterns and species mixture play a key role. Therefore, to optimize the productivity, profitability, energetics, and carbon footprint of the castor-based millet intercropping system, a field experiment was conducted for two consecutive kharif seasons (2020 − 2021 and 2021 − 2022) at the University of Agricultural Sciences, Bangalore, Karnataka (India). The results revealed that all the crops under monoculture outperformed their intercropping system for seed and stalk/stover yield. Among the different cropping systems, castor + finger millet (2:4) showed highest castor equivalent yield (CEY; 1911 kg ha−1) due to excellent land utilization efficiency (LUE; 106%), land equivalent ratio (LER; 1.13), land equivalent co-efficient (LEC; 0.32) compared to other cropping systems. Castor + finger millet (2:4) was even found superior in terms of monetary returns. Finger millet monoculture showed the highest energy consumption (10,770 MJ ha−1), energy output (96,507 MJ ha−1), and also net energy gain (85,737 MJ ha−1) compared to other cropping systems. However, it was comparable with castor + finger millet (2:4) despite its modest energy consumption (10,530 MJ ha−1). Castor monoculture showed the highest carbon (C) emission (2045 kg CO2-eq. ha−1) and also C output (1760 kg CE ha−1). While, net C gain (1210 kg CE ha−1), C efficiency (3.39 kg kg−1 CE), and C stability index (2.39) were highest in the castor + finger millet intercropping system. Consequently, the adoption of a castor + finger millet (2:4) intercropping system will be a viable alternative for achieving enhanced system productivity, and energy efficiency with lower C-footprints under semi-arid regions. [ABSTRACT FROM AUTHOR]

Published

2024

15. Integrated farming system approaches to achieve food and nutritional security for enhancing profitability, employment, and climate resilience in India

Author

Venkatesh Paramesh, Natesan Ravisankar, UmaKant Behera, Vadivel Arunachalam, Parveen Kumar, Racharla Solomon Rajkumar, Shiva Dhar Misra, Revappa Mohan Kumar, A. K. Prusty, D. Jacob, A. S. Panwar, Trivesh Mayenkar, Viswanatha K. Reddy, and Susitha Rajkumar

Subjects

agroecosystem, climate resilience, cropping system, farming system, sustainability, Agriculture, Agriculture (General), S1-972

Abstract

Abstract Integrated farming systems (IFS) entail a holistic approach to farming aimed at meeting the multiple demands (impart farm resilience, farmer livelihoods, food security, ecosystem services, and making farms adaptive and resilient, etc.). IFS are characterized by temporal and spatial mixing of crops, livestock, fishery, and allied activities in a single farm. It is hypothesized that these complex farms are more productive at a system level, are less vulnerable to volatility, and produce less negative externalities than simplified farms. Thereby, they cater the needs of small and marginal farmers, who are the backbone of agriculture in India. Our review of literature shows that IFS have the potential to improve farm profitability (265%) and employment (143%) compared to single enterprise farms. The literature showed that IFS enhance nutrient recycling through composting, mulching, and residue incorporation and, as a consequence, have the capacity to reduce the external purchase of inputs. The nutrient recycling in turn helps to increase the soil quality indicators such as soil nutrient availability and also improves soil microbial activity. The IFS play a major role in biodiversity conservation through adoption of diversified cropping system and through integration of indigenous livestock breeds. IFS also played important role in improving soil organic carbon from 0.75 to 0.82%. Due to increased carbon sequestration, biomass production by trees, reduced consumption of fertilizers, and pesticides the greenhouse gas emission could be reduced significantly. This results in a linked system making it sustainable and climate‐resilient. The main challenge associated with adoption of IFS is it requires skill, knowledge, resources, labor, and capital which are not always available with small and marginal farmers. There is a need for integrating productivity, profitability, and environmental sustainability variables in a single evaluation framework to effectively generate information toward enhancing adaptability of IFS.

Published

2022

16. A Life Cycle Assessment of Rice–Rice and Rice–Cowpea Cropping Systems in the West Coast of India

Author

Venkatesh Paramesh, Parveen Kumar, Ranjan Parajuli, Rosa Francaviglia, Kallakeri Kannappa Manohara, Vadivel Arunachalam, Trivesh Mayekar, and Sulekha Toraskar

Subjects

greenhouse gases emissions, environmental impact assessment, life cycle inventory, lowland ecosystem, rice–cowpea systems, Agriculture

Abstract

Crop diversification is essential in lowland rice cropping systems to achieve sustainability, improve soil health, and as a climate-resilient practice to reduce greenhouse gas (GHG) emissions. A life cycle assessment (LCA) was conducted for the farms in the west-coast region of India to assess the environmental impact of the rice–rice and rice–cowpea cropping systems. The life cycle impact assessment (LCIA) was evaluated in a “cradle-to-gate” perspective. A higher energy consumption was found in the rice–rice system (32,673 vs. 18,197 MJ/ha), while the net energy output was higher in the rice–cowpea system (211,071 vs. 157,409 MJ/ha). Energy consumption was 44% lower in the rice–cowpea system, which was coupled with a higher energy efficiency (11.6 vs. 4.8), attributed to the lower energy consumption and the higher energy output. Further, the results indicated an energy saving potentialin the rice–cowpea system due to the higher use of renewable resources such as farmyard manure. Field emissions, fertilizer production, and fuel consumption were the major contributors to the greenhouse gas (GHG) emissions in both cropping systems. The total GHG emissions were 81% higher in the rice–rice system (13,894 ± 1329 kg CO2 eq./ha) than in the rice–cowpea system (7679 ± 719 kg CO2 eq./ha). The higher GHG emissions in the rice–rice system were largely due to the higher use of fertilizers, diesel fuel, and machinery. Hence, diversifying the winter rice with a cowpea crop and its large-scale adoption on the west coast of India would provide multiple benefits in decreasing the environmental impact and improving the energy efficiency to achieve sustainability and climate resilience in rice-based cropping systems.

Published

2023

17. Comparative evaluation of linear and nonlinear weather-based models for coconut yield prediction in the west coast of India

Author

Das, Bappa, Nair, Bhakti, Arunachalam, Vadivel, Reddy, K. Viswanatha, Venkatesh, Paramesh, Chakraborty, Debashis, and Desai, Sujeet

Published

2020

18. Sustainable Management of Invasive Fall Armyworm, Spodoptera frugiperda

Author

Revappa Mohan Kumar, Basana-Gowda Gadratagi, Venkatesh Paramesh, Parveen Kumar, Yamanura Madivalar, Nagesha Narayanappa, and Farman Ullah

Subjects

agronomic practices, crop damage, integrated pest management, maize, Agriculture

Abstract

The fall armyworm of maize, Spodoptera frugiperda (J. E. Smith) (Lepidoptera; Noctuidae) is capable of causing a 100% yield loss due to its unforeseen occurrence from the seedling to the cob formation stage. To manage this serious pest, maize growers are tending to apply a high dosage of pesticides. This indiscriminate usage of pesticides has resulted in an unacceptable amount of insect resurgence in maize, harming maize production and consumption. In this review, we prepared a list of practical pest management options, including host plant resistance, agronomical, cultural, biological, botanical, chemical, and biotechnology approaches. It was found that cultivation of tolerant genotypes, adjusting sowing windows, and practicing specific intercultural and cropping systems measures in addition to chemical and non-chemical pest management strategies showed encouraging results for sustainable management of fall armyworm, which could protect the crop. This review highlights novel and successful management options advocated in various parts of the world. Recommendations documented in this paper would certainly pave the way for successful management of fall armyworm in maize and other concerned crops.

Published

2022

19. Impact of integrated farming system on residue recycling, nutrient budgeting and soil health

Author

VENKATESH PARAMESH, E B CHAKURKAR, TEJASVI BHAGAT, G B SREEKANTH, H B CHETAN KUMAR, SOLOMON RAJKUMAR, P P GOKULDAS, GOPAL R MAHAJAN, K K MANOHARA, and N RAVISANKAR

Subjects

Composting, Farming system, Goa, Lowland, Nutrient dynamics, Agriculture

Abstract

In this study, the effects of integrated farming system on residue recycling and soil quality in rice-based integrated farming systems have been examined. The effective nutrient budget for nitrogen was found higher with rice-fishpoultry- cowpea and the negative values were obtained for rice-chili and rice-baby corn systems. However, the effective budgets for phosphorus and potassium were negative in all these cropping systems. The results indicated that, about ten tonnes of organic matter was recycled, and the major share was from the dairy unit (~52%) in the form of dung and cow urine. Total internal nutrient supply due to recycling was estimated at 55 kg of nitrogen, 17 kg phosphorus and 76 kg of potassium, which is equivalent to 118 kg urea, 106 kg single super phosphate and 126 kg muriate of potash, thus reduction in cost of inputs. In the rice+fish+poultry-cowpea system, the indices of soil quality showed higher values, which indicated the improvement in soil fertility due to availability of poultry manure, plankton production, and the continuous fish activity. The current study confirmed that available N, DHA, Zn, B and Fe as the key indicators of soil quality under humid tropics of west coast India, which greatly influence the soil functions and soil productivity. The study conclusively reveals that integration of dairy, fishery, poultry components with diversified cropping systems in coastal lowland ecosystem is essential to improve the nutrient use efficiency and for enrichment of soil fertility.

Published

2021

20. Farmers’ Perception and Efficacy of Adaptation Decisions to Climate Change

Author

Krishna Viswanatha Reddy, Venkatesh Paramesh, Vadivel Arunachalam, Bappa Das, P. Ramasundaram, Malay Pramanik, Shankarappa Sridhara, D. Damodar Reddy, Abed Alataway, Ahmed Z. Dewidar, and Mohamed A. Mattar

Subjects

climate-resilient, climate change perception, climate adaptation, farmers’ income, Mann–Kendall test, Agriculture

Abstract

Climate change is viewed as the main obstacle to agricultural development in developing countries. The high dependence on agriculture and allied sectors makes many countries vulnerable to the climate change phenomenon. There is a gap in macro and micro-level understanding of climate change. Thoughtful farmers’ perceptions and impacts of climate change on farming are fundamental for developing various mitigation and adaptation strategies. Therefore, the main aim of the present study was to understand the pattern of climate variability, farmers’ perceptions about climate change, and farmers’ adaptation strategies based on their socio-cultural background in the villages of Goa, on the west coast of India. The results reveal that about 62% of the sampled farmers have experienced climate change in terms of meteorological indicators such as increased average temperature, decreased total rainfall, delayed onset of monsoon, and an increase in the length of the summer season. The temperature trend analysis (0.009 °C/year) validated farmers’ perceptions, while the perception of rainfall differed (−1.49 mm/year). Farmers are convinced that climate change has affected their farming (declining crop and livestock productivity, water depletion, and other related farm operations). They strive to adapt to climate change through crop diversification, an integrated crop-livestock system, contingency crop planning, and the adaptation of new crops and varieties. This study could be helpful for policymakers to establish a climate-resilient agriculture system by ensuring timely availability of farm inputs, accurate weather forecasting, and encouraging insurance products for crop and livestock enterprises, which will help farmers cope with the changing climate to enhance their income and economic wellbeing. Further, adaption of integrated farming, agroforestry, and indigenous technical knowledge is imperative to combat the ill effects of climate change.

Published

2022

21. Direct-Seeded Rice + Brahmi (Bacopa monnieri) Intercropping and Weed Management Practices Affects Weed Control Efficiency and Competitive Indices

Author

Neeshu Joshi, Sunita T. Pandey, V. Pratap Singh, Dinesh Jinger, Shourabh Joshi, Venkatesh Paramesh, Manoj Parihar, Rajesh Singhal, Talha Javed, Shah Saud, Shah Hassan, Depeng Wang, Chao Wu, and Shah Fahad

Subjects

Plant Science, Agronomy and Crop Science

Published

2022

22. Integrated Nutrient Management Enhances Yield, Improves Soil Quality, and Conserves Energy under the Lowland Rice–Rice Cropping System

Author

Prasad, Venkatesh Paramesh, Parveen Kumar, Tejasvi Bhagat, Arun Jyoti Nath, Kallakeri Kannappa Manohara, Bappa Das, Brijesh Fal Desai, Prakash Kumar Jha, and P. V. Vara

Subjects

energy analysis, farmyard manure, Goa, integrated nutrient management, soil health

Abstract

Identifying sustainable crop production systems that improve yield from existing farmland while improving resource use efficiency is critical to meet the growing demands of the increasing human population and diminishing natural resources. Considering the increasing cost associated with inorganic fertilizer, integrated nutrient management using both organic and inorganic sources is important. Therefore, optimizing nutrient management practices that increase yield, improve soil quality, build up soil organic carbon storage, and maintain energy balance can help achieve sustainability in farming systems. In this regard, different nutrient management practices under the rice–rice (Oryza sativa L.) cropping system were evaluated using five different criterions, namely, (i) crop yield response, (ii) soil quality, (iii) soil carbon stock, (iv) energy efficiency, and (v) profitability under lowland situations in the Goa state situated in the western coast of India. We tested six nutrient management treatments, namely, inorganic fertilizers, organic (farmyard manure), rice straw, and their combinations over three years from 2016 to 2019. The results revealed that integrated nutrient management improved soil carbon stock, microbial biomass carbon, and soil fertility more than the other treatments. The integrated use of farmyard manure and chemical fertilizer showed significantly higher crop yield (9.86 v/s 9.41 Mg ha−1), microbial biomass carbon (354 v/s 233.7 mg kg−1 soil), soil carbon stock (36.65 v/s 25.5 Mg C ha−1), energy efficiency (23.8 v/s 22.3), and net return (1776 v/s 1508 USD) than those associated with chemical fertilizer alone. We conclude that the application of chemical fertilizers/organic sources alone may not be sustainable for the rice–rice cropping system in the Goa state of India; the focus should be on integrated nutrient management systems.

Published

2023

23. Evaluation of multiple linear, neural network and penalised regression models for prediction of rice yield based on weather parameters for west coast of India

Author

Das, Bappa, Nair, Bhakti, Reddy, Viswanatha K., and Venkatesh, Paramesh

Published

2018

24. Microbial Biomass Carbon, Activity of Soil Enzymes, Nutrient Availability, Root Growth, and Total Biomass Production in Wheat Cultivars under Variable Irrigation and Nutrient Management

Author

Bipin Kumar, Shiva Dhar, Sangeeta Paul, Venkatesh Paramesh, Anchal Dass, Pravin Kumar Upadhyay, Amit Kumar, Shaimaa A. M. Abdelmohsen, Fatemah H. Alkallas, Tarek K. Zin El-Abedin, Hosam O. Elansary, and Ashraf M. M. Abdelbacki

Subjects

microbial biomass carbon, irrigation schedules, nutrient management, organic carbon, soil enzymes, biomaterials, Agriculture

Abstract

Intensive mono-cropping without a balanced supply of nutrients and declining water resources are degrading soil health, and as a consequence, agriculture production is becoming unsustainable and causing environmental degradation. The field experiment was conducted during Rabi season to assess the effect of an irrigation schedule, nutrient management, and wheat (Triticum aestivum L.) varieties on soil microbial biomass carbon (SMBC) and soil enzymes activities. Two nutrient levels, recommended rate of chemical fertilizer (RDF) and 50% RDF + 50% recommended dose of nitrogen (RDN) through farmyard manure (FYM) designated as Integrated Nutrient Sources (INS), and three irrigations levels, one irrigation at crown root initiation (CRI), two irrigations at CRI and flowering stages, and five irrigations at all main stages of the crop (CRI, tillering, jointing, flowering, and grain filling) were allocated to main-plots while four varieties of wheat, HD 2967, WR 544, HD 2987, and HD 2932, were allocated to sub-plots. The results revealed that SMBC and activities of dehydrogenase, alkaline phosphatase enzymes, and acid phosphatase were higher under restricted irrigation (irrigation at CRI stage) than other irrigation schedules. SMBC, dehydrogenase, acid phosphatase, and alkaline phosphatase activities were 73.0 µg g soil−1, 86.0 µg TPF g soil−1d−1, 39.6 µg PNP g soil−1 h1, and 81.8 µg PNP g−1 soil h−1, respectively, with the use of INS that was higher than RDF. Root weight and root volume followed a similar pattern. Applying single irrigation at CRI left behind the maximum available nitrogen (166.4 kg ha−1) in soil compared to other irrigation schedules and it was highest (149.31 kg ha−1) with the use of INS. Moreover, total organic carbon (TOC) was 0.44 and 0.43% higher with irrigation at CRI stages and the use of INS, respectively. The INS with single irrigation at the CRI stage is important to improve the root growth, SMBC dehydrogenase, alkaline phosphatase, and acid phosphatase enzyme activity in the wheat production system.

Published

2021

25. Residual Silicon and Phosphorus Improved the Growth, Yield, Nutrient Uptake and Soil Enzyme Activities of Wheat

Author

Dinesh Jinger, Shiva Dhar, Anchal Dass, V. K. Sharma, Livleen Shukla, Venkatesh Paramesh, Manoj Parihar, Neeshu Joshi, Ekta Joshi, Gaurendra Gupta, and Satyapriya Singh

Subjects

Electronic, Optical and Magnetic Materials

Published

2022

26. Residue and Potassium Management Strategies to Improve Crop Productivity, Potassium Mobilization, and Assimilation under Zero-Till Maize–Wheat Cropping System

Author

Raghavendra Madar, Yudh Vir Singh, Mahesh Chand Meena, Tapas Kumar Das, Venkatesh Paramesh, Fahed A. Al-Mana, Mohamed A. Mattar, and Hosam O. Elansary

Subjects

conservation agriculture, cropping system, K-balance, K-dynamics, potassium solubilizing bacteria, Agriculture (General), S1-972

Abstract

Understanding of the potassium (K) nutrient cycle and its microbial transformation of unavailable forms of soil K to plant-available K is crucial in any agroecosystem for strategic nutrient management through inorganic fertilizer, crop residue (CR), and microbial applications. Therefore, the present investigation was undertaken to study the effect of crop residue and K management practices on crop productivity, K mobilization from native soil K-pool, and crop assimilation of K under a zero-till maize–wheat cropping system. The experiment consisted of four residue levels (0, 2, 4, and 6 Mg ha−1) and five K levels (0, 50%, 100%, 150% RDK [recommended dose of K] and 50% RDK + potassium solubilizing bacteria, KSB). Results showed that CR retention at 6.0 Mg ha−1 significantly improved grain yield (of maize by 10.17%; wheat by 9.87%), dry matter accumulation, K uptake and redistribution in native soil K pools (water soluble K (WSK), exchangeable K (EK) and non-exchangeable K (NEK)) at 30 and 60 days after sowing and at harvest as compared to no CR. Among the K management, 50% RDK+KSB reported significantly higher grain yield (of maize by 26.22%; wheat by 24.70%), dry matter accumulation, K uptake, and native K pools (WSK, EK, and NEK) at different growth stages compared to no K. Total K did not differ significantly due to residue and K management. The highest actual change of K reported with 6.0 Mg ha−1 CR (51 kg ha−1) and 50% RDK+KSB (59 kg ha−1) over control. Significant (p ≤ 0.01) positive correlation was found among grain yield, dry matter accumulation, K uptake, the actual change in K and different native K pools. It can be concluded that retention of 6 Mg ha−1 CR and supply of 50% K through inorganic fertilizer along with seed inoculation of KSB biofertilizers, improved crop growth, productivity by enhancing K assimilation as a consequence of the release of non-exchangeable K and through the application of CR and K treatments under a zero tillage maize–wheat system.

Published

2020

27. Impact of sustainable land‐use management practices on soil carbon storage and soil quality in Goa State, India

Author

Nirmal Kumar, Shankar Lal Jat, V. Arunachalam, Parveen Kumar, Tejasvi Bhagat, Surendra Singh, Arun Jyoti Nath, Shiva Dhar Misra, Deepak S. Mohekar, Venkatesh Paramesh, and G. R. Mahajan

Subjects

Land use, State (polity), Environmental protection, media_common.quotation_subject, Soil Science, Environmental Chemistry, Environmental science, Soil carbon, Development, Soil quality, Management practices, General Environmental Science, media_common

Published

2021

28. Co-implementation of tillage, irrigation, and fertilizers in soybean: Impact on crop productivity, soil moisture, and soil microbial dynamics

Author

Rajanna, GA, primary, Dass, Anchal, additional, Suman, Archana, additional, Babu, Subhash, additional, Venkatesh, Paramesh, additional, Singh, VK, additional, Upadhyay, Pravin Kumar, additional, and Sudhishri, Susama, additional

Published

2022

29. Energy and carbon budgeting in a soybean–wheat system in different tillage, irrigation and fertilizer management practices in South-Asian semi-arid agroecology

Author

G.A. Rajanna, Anchal Dass, Vinod K. Singh, Anil.K. Choudhary, Venkatesh Paramesh, Subhash Babu, Pravin K. Upadhyay, Manjanagouda S. Sannagoudar, B.C. Ajay, and K. Viswanatha Reddy

Subjects

Soil Science, Plant Science, Agronomy and Crop Science

Published

2023

30. Protected Cultivation of Horticultural Crops as a Livelihood Opportunity in Western India: An Economic Assessment

Author

Prakash Pachiyappan, Pramod Kumar, Krishna Viswanatha Reddy, Kotamraju N. Ravi Kumar, Srinivasa Konduru, Venkatesh Paramesh, Gandhamanagenahalli A. Rajanna, Shashidhar K. Shankarappa, Duraisamy Jaganathan, Sheela Immanuel, Ankush L. Kamble, Raman Selvakumar, Kingsly T. Immanuelraj, Boopathy Raja Manogaran, Anbukani Perumal, Umamageswari Maruthanayagam, and Sivalingam Niranjan

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, economic assessment, western India, horticultural crops, protected cultivation technology, commercial scale, Building and Construction, Management, Monitoring, Policy and Law

Abstract

Protected cultivation is an innovative way of raising seasonal and off-seasonal crops under a controlled environment. Vegetables and flower crops have tremendous potential to augment productivity, generate employment, utilize land efficiently and enhance export. This study was undertaken to assess the economic feasibility of protected cultivation in the high export potential zones of the Pune and Nasik districts of Maharashtra, India, by employing project analytical tools and the regression model. The results revealed that the cultivation of flowers and vegetables under protected cultivation was highly lucrative with high investment. The protected cultivation of rose and capsicum had higher cultivation cost (300%), gross return (250%) and net return (190%) as compared to open cultivation. Moreover, most of the crops grown in polyhouses are highly profitable at different discount rates (7%, 10% and 12%), whereas a few crops were rewarding under shade net condition with subsidies. Factors such as literacy (p < 0.05), income (p < 0.05), access to subsidy (p < 0.05) and the risk orientation index (p < 0.01) were found statistically significant in technology adoption. In the context of a changing climate and shrinking land resources, water scarcity, incidence of pests and diseases, an ever-increasing population, low productivity under open conditions and changes in consumer’s preference are the drivers for switching over to protected cultivation. In the recent past, protected cultivation has been gaining importance in different parts of the country, including Maharashtra. The policy implications are creating modern infrastructure, enhanced application of ICTs, maximum crop production with minimum utilization of land and institutional support to promote technology on a commercial scale.

Published

2022

31. Energy budgeting, sensitivity analysis and greenhouse gas emission from rice production system: a case study from the coastal ecosystem of Goa, India

Author

Venkatesh Paramesh, Parveen Kumar, Manohara K K, Viswanatha Reddy. K, Dinesh Jinger, and Bappa Das

Abstract

In recent years, energy consumption and greenhouse gas (GHG) emissions are of major concern across the globe In this context, using data envelopment analysis, a study was done to determine the energy usage pattern and efficiency of rice farmers in the coastal state. The results showed that rice production systems had energy use efficiency, energy productivity, net energy, and human energy profitability of 2.40, 0.16 MJ/kg, 15728 MJ/ha, and 42.8, respectively. 5 and 21 farmers were judged to be efficient based on technical and pure technical efficiency, respectively. The mean scale efficiency of inefficient farmers was 0.68 which indicated the scope for refining agricultural practices to input use. Nitrogen, farmyard manure, and seeds have a positive impact on crop yield, whereas labor and diesel harm both crop yield and energy, according to the econometric model. The main non-renewable inputs contributing to GHG emissions are nitrogen fertiliser (72.1 kg CO2 eq./ha), fuel (68.5 kg CO2 eq./ha), and machinery (68.9 kg CO2 eq./ha). Indirect (81.7%) and non-renewable (73.8%) energy consumption was found to be higher than direct (18.3%) and renewable energy consumption (26.2%). Our findings suggested that farmers in this region should use conservation tillage and better crop management strategies to save energy and minimize GHG emissions.

Published

2022

32. Socio-demographic influences on various consumer food safety indices: an empirical study of ethnic Goan pork sausage consumers

Author

Venkatesh Paramesh, Eaknath B. Chakurkar, Renuka Nayar, Vismitha Shree Venkatesh, Prejit Nambiar, Solomon Rajkumar, and Kavitha Rajagopal

Subjects

Consumption (economics), business.industry, media_common.quotation_subject, 010401 analytical chemistry, Ethnic group, Regression analysis, 04 agricultural and veterinary sciences, Food safety, 040401 food science, 01 natural sciences, Correspondence analysis, 0104 chemical sciences, 0404 agricultural biotechnology, Geography, Promotion (rank), Empirical research, Environmental health, Business, Management and Accounting (miscellaneous), business, Pork sausage, Food Science, media_common

Abstract

PurposeThe purpose of this paper is to assess food safety knowledge, choice behavior and health hazard concerns of ethnic Goan pork sausage consumers through various consumer food safety indices and also to evaluate socio-demographic influences on various consumer food safety indices.Design/methodology/approachPrimary data in the form of 210 questionnaire responses were collected from Goan pork sausage consumers. Based on the responses, seven various consumer food safety indices were derived. The cumulative score of all the indices were normalized (0–1). The association between socio-demographic variables and consumer indices were evaluated using linear regression analysis, Pearson's correlation matrix, principal component analysis (PCA) and correspondence analysis (CA).FindingsThe results of the analysis indicate that the consumption of Goan pork sausages is most prevalent amongst younger people with high education having higher income. A majority of consumers have high score for the four consumer indices. The results of correlation analysis, regression analysis, PCA and CA revealed a significant association of consumer indices with socio-demographic variables.Originality/valueThe results of this study will provide a way forward for the evaluation of existing overall food safety concerns in the target population and in the future would be used for the promotion of good handling practices and health of Goan pork sausage consumers.

Published

2021

33. Long-Term Effect of Various Organic and Inorganic Nutrient Sources on Rice Yield and Soil Quality in West Coast India Using Suitable Indexing Techniques

Author

Venkatesh Paramesh, Bappa Das, Shaiesh Morajkar, G. R. Mahajan, B. L. Manjunath, and Ashwini Desai

Subjects

0106 biological sciences, Nutrient management, business.industry, Field experiment, Soil Science, 04 agricultural and veterinary sciences, 01 natural sciences, Soil quality, Crop, Nutrient, Agronomy, Agriculture, Yield (wine), Sustainability, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, business, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Soil quality (SQ) under any agriculture system is greatly influenced by source of nutrients, type of soil, crop, and their management practices. In this regard, a field experiment was conducted und...

Published

2021

34. Identification of Sustainable Development Priorities for Agriculture through Sustainable Livelihood Security Indicators for Karnataka, India

Author

Shankarappa Sridhara, Pradeep Gopakkali, Konapura Nagaraja Manoj, Kiran Kumar R. Patil, Venkatesh Paramesh, Prakash Kumar Jha, and P. V. Vara Prasad

Subjects

livelihood security, sustainable development, Environmental effects of industries and plants, principal component analysis, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, linear scoring, TJ807-830, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Environmental sciences, GE1-350

Abstract

To cope with worsening climate change and widening intergenerational equity issues, more impetus should be given to sustainable development. India, predominantly an agrarian economy, faces most pressing issues of sustainable development with a complex territorial hegemony of the population and their dynamic food demands. Regional production systems play a vital role in strengthening national sustainable development priorities in India. Hence, to realize the dimensions of sustainable development in a more meaningful way, sustainability needs to be prioritized in an agrarian economy. Sustainability is a complex phenomenon encompassing economic, ecological and equity dimensions. A modest attempt in this regard has been made to estimate normative sustainable indicators for Karnataka state considering 20 crucial indicators or variables governing different dimensions. Using principal component analysis and linear scoring techniques, a minimum dataset including forest cover, livestock and human population density, and cropping intensity governing ecological issues, groundwater availability and milk availability governing social equity issues, and net cropped area, land productivity, labor productivity, food grain productivity and fertilizer use governing economic efficiency was identified, constituting crucial indicators for the development of the sustainable livelihood security index. The computed index was used to classify districts in Karnataka into various sustainable categories. Among 27 districts, 13 districts were grouped as less sustainable, 4 as highly sustainable and 10 as moderately sustainable categories. This classification and knowledge provide clues for policy makers to transform less sustainable districts into moderately/highly sustainable ones by formulating suitable policies related to crucial factors. Formulated policies on crucial factors have a domino effect/causation effect and bring about desirable changes in all other indicator variables, leading to the sustainable development of the target districts in Karnataka. This approach can be used at different scales in other states in India and in other developing countries.

Published

2022

35. Growth indices, Yield, Nutrient Uptake and Soil Enzyme Activity of wheat as Affected by Residual Effect of Phosphorus and Silicon

Author

Venkatesh Paramesh, Anchal Dass, Shiva Dhar, Neeshu Joshi, Livleen Shukla, Ekta Joshi, Satyapriya Singh, Dinesh Jinger, Gaurendra Gupta, V. K. Sharma, and Manoj Parihar

Subjects

Nutrient, chemistry, Agronomy, Silicon, Phosphorus, Yield (chemistry), chemistry.chemical_element, Soil enzyme, Residual

Abstract

Silicon (Si) is known as a beneficial or quasi-essential element particularly for graminaceous crops, as Si increases dry matter accumulation and enhances resistance to lodging and drought. However, the combined application of phosphorus (P) and Si has a tremendous impact on the growth and yield of various crops. While the residual effect of Si and P application on growth, yield and soil biological activity in wheat were not ascertained. Therefore, the present study was conducted to evaluate the residual effect of Si and P on growth indices, yield, nutrient uptake, and soil enzyme activities of succeeding wheat crops. The four levels of Si (0, 40, 80, and 120 kg Si ha− 1) and P (0, 30, 60, and 90 kg P2O5 ha− 1) were applied to the preceding aerobic rice crop and their effect was evaluated in succeeding wheat crop. The results demonstrated a significant effect of Si and P on wheat growth, yield, nutrient uptake, and soil enzyme activities. The residual effect of 120 kg Si and 90 kg P2O5 ha− 1 significantly improved the grain yield of the succeeding wheat crop by 24–45%. Further, the residual Si and P remarkably improved Si, N, P, and K concentration in wheat grain by 35, 13.2, 45, and 56 %, respectively, over control. Similarly, an increase in the microbial biomass carbon, dehydrogenase, fluorescein diacetate, and alkaline phosphatase activity by 17.2, 33.5, 12.4, and 37.5%, respectively were observed in the residual application of 120 kg Si and 90 kg P2O5 ha− 1 over control. Therefore, the inclusion of Si and P could have great potential to improve soil enzyme activities and productivity of the wheat crop.

Published

2021

36. Integrated Farming Systems as an Adaptation Strategy to Climate Change: Case Studies from Diverse Agro-Climatic Zones of India

Author

Venkatesh Paramesh, Parveen Kumar, Mohammad Shamim, Natesan Ravisankar, Vadivel Arunachalam, Arun Jyoti Nath, Trivesh Mayekar, Raghuveer Singh, Ashisa K. Prusty, Racharla Solomon Rajkumar, Azad Singh Panwar, Viswanatha K. Reddy, Malay Pramanik, Anup Das, Kallakeri Kannappa Manohara, Subhash Babu, and Poonam Kashyap

Subjects

Renewable Energy, Sustainability and the Environment, climate change, climate adaption, rainfall anomaly, Mann-Kendal test, integrated farming system, agro-climatic zone, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law

Abstract

Climate change impacts agricultural productivity and farmers’ income, integrated farming systems (IFS) provide a mechanism to cope with such impacts. The nature and extent of climatic aberrations, perceived impact, and adaptation strategies by the farmers reduce the adverse effects of climate change on agriculture. Therefore, a study was conducted to investigate 2160 IFS farmers about their perceptions of climate change, barriers, and the likelihood of adapting to the negative impacts of climate change. The study observed an increasing rainfall trend for humid (4.18 mm/year) and semi-arid (0.35 mm/year) regions, while a decreasing trend was observed in sub-humid (−2.02 mm/year) and arid (−0.20 mm/year) regions over the last 38 years. The annual rise in temperature trends observed in different ACZs varied between 0.011–0.014 °C. Nearly 79% of IFS farmers perceived an increase in temperature, decreasing rainfall, variability in the onset of monsoon, heavy terminal rains, mid-season dry spells, and frequent floods due to climate change. The arid, semi-arid, sub-humid, and humid farmers’ adapted several measures in different components with an adaption index of 50.2%, 66.6%, 83.3%, and 91.6%, respectively. The majority of the IFS farmers perceived constraints in adopting measures to climate change, such as meta barriers, capacity barriers, and water barriers. Therefore, we infer that educated farmers involved in diversified and profitable farms with small to medium landholdings are concerned more about climate change in undertaking adaptive strategies to reduce the environmental impact of climate change.

Published

2022

37. Farm typology of smallholders integrated farming systems in Southern Coastal Plains of Kerala, India

Author

Anitrosa Innazent, D. Jacob, J. S. Bindhu, Brigit Joseph, K. N. Anith, N. Ravisankar, A. K. Prusty, Venkatesh Paramesh, and A. S. Panwar

Subjects

Environmental sciences, Environmental social sciences, Multidisciplinary, Ecology, Science, Medicine, Article

Abstract

Adoption of an integrated farming system (IFS) is essential to achieve food and nutritional security in small and marginal holdings. Assessment of IFS to know the resource availability and socio-economic condition of the farm household, farm typology plays a critical role. In this regard, a sample survey of 200 marginal households practicing mixed crop-livestock agriculture was conducted during 2018–2019 at Southern Coastal Plains, which occupies 19,344 ha in Thiruvananthapuram district, Kerala, India. Farming system typology using multivariate statistical techniques of principal component analysis and cluster analysis characterized the diverse farm households coexisting within distinct homogenous farm types. Farming system typology identified four distinct farm types viz. resource constrained type-1 households with small land owned, high abundance of poultry, very low on-farm income, constituted 46.5%; resource endowed type-2 households oriented around fruit and vegetable, plantation crop, with a moderate abundance of large ruminant and poultry, high on-farm income, constituted 12.5%; resource endowed type-3 household oriented around food grain, extensive use of farm machinery, with a moderate abundance of large ruminant, low on-farm income, constituted 21.5%; and resource endowed type-4 household oriented around fodder, with high abundance of large ruminant, medium on-farm income, constituted 19.5% of sampled households. Constraint analysis using constraint severity index assessed the severity of constraints in food grain, horticulture, livestock, complementary and supplementary enterprises in each farm type, which allowed targeted farming systems interventions to be envisaged to overcome soil health problems, crops and animal production constraints. Farming system typology together with constraint analysis are therefore suggested as a practical framework capable of identifying type-specific farm households for targeted farming systems interventions.

Published

2021

38. Simulating soil organic carbon stock under different climate change scenarios: A RothC model application to typical land-use systems of Goa, India

Author

Venkatesh Paramesh, Parveen Kumar, Arun Jyoti Nath, Rosa Francaviglia, Gaurav Mishra, Vadivel Arunachalam, and Sulekha Toraskar

Subjects

Earth-Surface Processes

Published

2022

39. Co-fertilization of Silicon and Phosphorus influenced the Dry Matter Accumulation, Grain Yield, Nutrient Uptake, and Nutrient-Use Efficiencies of Aerobic Rice

Author

Vibha Singhal, Subramaniyan Vijayakumar, Ekta Joshi, Shiva Dhar, Gaurendra Gupta, Anchal Dass, Dasharath Prasad, Vinod Sharma, Venkatesh Paramesh, Dinesh Jinger, and Manoj Parihar

Subjects

Materials science, Nutrient management, Field experiment, Phosphorus, Potassium, Randomized block design, food and beverages, chemistry.chemical_element, Nitrogen, Electronic, Optical and Magnetic Materials, Nutrient, Animal science, chemistry, Dry matter

Abstract

Rice is known to be a nutrient exhaustive crop and the application of silicon (Si) has been reported for the better utilization of plant nutrients from the soil. Hence, the response of the plant to phosphorus (P) could be enhanced by co-fertilization of Si and P. The present study evaluates the dry matter production (DMP), grain yield, nutrients uptake, and nutrient-use efficiency (NUE) of Si and P application in aerobic rice (AR). Therefore, a field experiment was conducted at ICAR-Indian Agricultural Research Institute (ICAR-IARI), New Delhi, India in a factorial randomized block design (FRBD), the treatments comprised four levels of Si (0, 40, 80, and 120 kg Si ha–1) and P (0, 30, 60, and 90 kg P2O5 ha–1) application. The results revealed the significant effect of Si and P application on DMA, grain yield, and nutrient uptake in AR. The highest DMP and grain yield of AR was found with the combination of 120 kg Si and 90 kg P2O5 ha–1 closely followed by the combination of 80 kg Si and 60 kg P2O5 ha–1. The rate of increase in DMP due to different doses of Si and P ranged between 7.6–25.6% over control. A strong positive relationship was observed between different doses of Si and P and concentrations and uptakes of different nutrients, barring zinc (Zn). Application of Si and P elevated the grain concentration of Si, nitrogen (N), P, and potassium (K) by 25, 16.5, 47, and 25%, respectively, over control. Overall, the addition of Si and P application in nutrient management could increase the productivity and NUE of AR.

Published

2021

40. Application of homobrassinolide enhances growth, yield and quality of tomato

Author

Ashraf M. M. Abdelbacki, Ahmed M. El-Sabrout, Nandini Ramesh, Hosam O. Elansary, Shaimaa A. M. Abdelmohsen, Nissren Tamam, Pradeep Gopakkali, Venkatesh Paramesh, and S. Sridhara

Subjects

Plant growth, Total soluble solids, biology, QH301-705.5, Fruit yield, Field experiment, fungi, food and beverages, Homobrassinolide, Ascorbic acid, biology.organism_classification, Biomaterial, Tomato, Keeping quality, Crop, chemistry.chemical_compound, Horticulture, chemistry, Soluble solids, Yield (chemistry), Original Article, Biology (General), Solanum, General Agricultural and Biological Sciences, Gibberellic acid

Abstract

Brassinosteroids (BRs) have emerged as pleiotropic phytohormone owing to their wide function in crop growth and metabolism. Homobrassinolide (HBR) being an analogue of BRs is known to improve the growth, yield and quality parameters in many crop plants. Thus, an evaluation study was conducted for two years (2018 and 2019) to elucidate the performance of tomato plants (Solanum lycopersicum L.) to a novel group of phytohormone,HBR. The field experiment comprised of seven treatments with homobrassinolide 0.04% (Emulsifiable Concentrate) EC at four different concentrations (0.06, 0.08, 0.10 and 0.12 g active ingredient (a.i.) ha−1) and two well-known growth promoters viz., Gibberellic acid (GA), Naphthalene Acetic Acid (NAA) along with the untreated control. Plant height and chlorophyll concentration were found significantly different in both years of experiment as well as among the different treatments. HBR at 0.12 g a.i. ha−1 was found better with maximum number of fruits (77.36 plant−1), fruit length (6.72 cm), fruit breadth (6.45 cm) and fruit weight (80.52 g) over other concentrations and treatments. Fruit yield was more pronounced in the plots treated with plant growth regulators compared to untreated control. However, significantly higher fruit yield of 91.07 t ha−1 (62.58 t ha−1 with untreated control) along with improved quality traits viz., fruit firmness (4.11 kg cm−2), ascorbic acid content (24.09 mg 100 g−1), total soluble solids (4.43°Brix) and keeping quality (12.50 days) was recorded in 0.12 g a.i. ha−1 HBR treated plots. Thus, it can be inferred that HBRapplication would be a better option to enhance growth, yield as well as quality traits in tomato.

Published

2021

41. Achieving Food and Livelihood Security and Enhancing Profitability through an Integrated Farming System Approach: A Case Study from Western Plains of Uttar Pradesh, India

Author

Poonam Kashyap, Ashisa K. Prusty, Azad S. Panwar, Venkatesh Paramesh, Ravisankar Natesan, M. Shamim, Nisha Verma, Phool Chand Jat, and Mahendra Pal Singh

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law, crop–livestock integration, food security, livelihood security, sustainability, Uttar Pradesh

Abstract

The integrated farming system (IFS) is a comprehensive farm practice to improve small and marginal farmers’ livelihoods. The IFS enhances nutrient recycling and food security and promotes greater efficiency of fertilizers and natural resources. To improve livelihood, profits, and employment generation holistically through an IFS method, a study was conducted over four years, from 2016 to 2019, to define the farming condition in 1036 households in the Muzzafarnagar district of Western Uttar Pradesh. Crop + dairy was the most frequent farming method (68%) followed by crop + dairy + horticulture + goatary. Compared to older cultivars, improved rice, maize, wheat, and barley cultivars enhanced crop yield by 17 to 42%. Transplanting sugarcane and intercropping of mustard increased system yield from 58.89% to 86.17% compared to the sole sugarcane crop. Nutritional kitchen gardening resulted in an average saving of $20 to $25 during the Kharif season and $20 to $27 during Rabi season. Exotic vegetables such as broccoli, Chinese cabbage, cherry tomato, kale, parsley, and lettuce were introduced, which increased regular income. With the adoption of a multi-tier-based system, the net returns from the system improved from 0.6 lakh to 2.20 lakhs per ha. Enhancing the fodder availability resulted in a 27.5% milk yield improvement. The study’s outcomes demonstrated that a five-member family’s annual protein (110–125 kg) and carbohydrate (550 to 575 kg) requirements can be easily met using the IFS technique. According to the study, IFS approaches combined with better technical interventions can ensure the long-term viability of farming systems and improve livelihoods.

Published

2022

42. Energy transfer and trophic organization in an Integrated Fish-Livestock-Horticulture System (IFLH) from Bicholim (Goa), the western coast of India

Author

Trivesh S. Mayekar, G.B. Sreekanth, Venkatesh Paramesh, Parveen Kumar, Amit S. Patil, Sajiya Yusuf Mujawar, and Anita Mathew

Subjects

Aquatic Science

Published

2022

43. Impact of sustainable land-use management practices on soil carbon sequestration and soil quality in the west coast of India

Author

Venkatesh, Paramesh, primary, SINGH, SURENDRA, additional, Mohekar, Deepak, additional, Arunachalam, Vadivel, additional, Misra, Shiva, additional, Jat, S, additional, Nath, Arun, additional, Kumar, Nirmal, additional, Mahajan, Gopal, additional, and Bhagat, Tejasvi, additional

Published

2021

44. Energy Budgeting, Data Envelopment Analysis and Greenhouse Gas Emission from Rice Production System: A Case Study from Puddled Transplanted Rice and Direct-Seeded Rice System of Karnataka, India

Author

Ashok Kumar Gaddi, G. A. Rajanna, Kariyaiah Basavalingaiah, T. K. Roopa, Venkatesh Paramesh, H. C. Girisha, Shankar Lal Jat, K. S. Shashidhar, G. S. Yogesh, Diaa O. El-Ansary, Shiva Dhar Misra, S. Raveesha, Y. M. Ramesha, Hosam O. Elansary, and Bipin Kumar

Subjects

020209 energy, Geography, Planning and Development, TJ807-830, 02 engineering and technology, Agricultural engineering, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, Environmental Sustainability Index, 0202 electrical engineering, electronic engineering, information engineering, Data envelopment analysis, GE1-350, energy efficiency, 0105 earth and related environmental sciences, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, rice, Energy consumption, technical efficiency, Environmental sciences, carbon sustainability, greenhouse gas, Greenhouse gas, Environmental science, Seeding, Energy productivity, Efficient energy use

Abstract

The energy consumption pattern and greenhouse gas (GHG) emission of any rice production system is important to know the sustainability of varied cultivation and establishment technique. This study was conducted to determine the energy use pattern, GHG emission and efficiency of rice farms in puddled transplanted (PTR, rainfed) and direct-seeded rice (DSR, irrigated) production systems in Karnataka, India. The energy indices and GHG emission of different input and output in a rice production system were assessed by using energy and carbon equivalence. The efficiency of PTR and DSR farms were identified using data envelopment analysis (DEA) and energy optimization was ascertained. The key finding was excessive use of non-renewable energy inputs was observed for the PTR (92.4%) compare to DSR (60.3%) methods. The higher energy use efficiency (7.3), energy productivity (0.3 kg MJ&minus, 1) and energy profitability (6.3) were mainly attributed to the large decrease in energy inputs under DSR. The DEA showed efficiency for 26 PTR farms in comparison for 87 DSR farms. The mean technical efficiency value highlighted the scope for saving energy by 6% and 2% in PTR and DSR, respectively and showed an economic reduction of $405.5/ ha with PTR versus $163.3/ha with the DSR method if these inefficient farms perform efficiently. The GHG emissions revealed that the total emissions for PTR versus DSR production caused by on-farm emissions were 86% and 65%, respectively. The DSR method also had a higher carbon efficiency ratio and carbon sustainability index (10.1 and 9.1, respectively). Thus, adoption of DSR method is imperative for reduction of energy consumption and GHG emissions to achieve the carbon sustainability.

Published

2020

45. Ecosystem Network Analysis in a Smallholder Integrated Crop–Livestock System for Coastal Lowland Situation in Tropical Humid Conditions of India

Author

K. K. Manohara, N. Ravisankar, Parappurath P. Gokuldas, R. S. Rajkumar, Giri Bhavan Sreekanth, A. S. Panwar, Eaknath B. Chakurkar, G. R. Mahajan, H.B. Chethan Kumar, and Venkatesh Paramesh

Subjects

0106 biological sciences, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, Context (language use), Management, Monitoring, Policy and Law, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, Finn’s cycling index, Ecosystem model, nutrient balance, Ecosystem, lcsh:Environmental sciences, Trophic level, lcsh:GE1-350, Renewable Energy, Sustainability and the Environment, Agroforestry, business.industry, lcsh:Environmental effects of industries and plants, 04 agricultural and veterinary sciences, Ecopath model, ecosystem sustainability, lcsh:TD194-195, Agriculture, Sustainability, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Agricultural biodiversity, business, ecological group

Abstract

The integrated crop&ndash, livestock system (ICLS) is a farming strategy that helps to sustain agrobiodiversity, ecosystem services, and restores environmental sustainability. Furthermore, ICLS provides food and nutritional security to the small and marginal farmers in developing nations. In this context a mass-balanced ecosystem model was constructed for a smallholder ICLS along the Indian west coast to analyze the agro-ecological performance in terms of sustainability, resource use, nutrient balance and recycling. Thirteen functional groups were defined in the ICLS model with trophic levels ranging from 1.00 (detritus and benthic nitrogen fixers) to 3.00 (poultry and ruminants). The total system throughput index was estimated to be 1134.9 kg N ha&minus, 1 year&minus, 1 of which 60% was from consumption, 15% from exports, 10% from respiration, and the remaining 15% eventually flowing into detritus. The gross efficiency of the ecosystem was estimated to 0.3, which indicated higher growth rates and low maintenance energy costs. The higher food self-sufficiency ration of 7.4 indicated the integration of crop&ndash, livestock as an imperative system to meet the food and nutritional requirement of the farm family. The indices such as system overhead (60%), Finn&rsquo, s cycling index (16.6) and mean path length (3.5) denoted that the ICLS is a small, resource-efficient, stable, maturing and sustainable ecosystem in terms of the ecosystem principles and recycling. The present model will serve as the first model on the ICLS from the humid tropics and will help in the evaluation of the other agro-ecological systems using the Ecopath modelling approach. In conclusion, farm intensification through crop and animal diversification has the highest impact on farm productivity, food self-sufficiency and resource-use-efficiency of the smallholder&rsquo, s livelihood security.

Published

2020

46. Energy flow and life cycle impact assessment of coffee-pepper production systems: An evaluation of conventional, integrated and organic farms in India

Author

Greg Thoma, Shripad Ramachandra Bhat, G. S. Yogesh, K. Basavalingaiah, Ranjan Parajuli, Venkatesh Paramesh, M. Hanumanthappa, G.V. Vidyashree, H. C. Girisha, M. Shivaprasad, M.M. Irfan, G. A. Rajanna, and Shiva Dhar Misra

Subjects

Agricultural science, Net energy gain, Ecology, Intensive farming, Greenhouse gas, Geography, Planning and Development, Sustainability, Data envelopment analysis, Environmental science, Integrated production, Energy consumption, Management, Monitoring, Policy and Law, Life-cycle assessment

Abstract

In the process of analyzing and taking action toward a low-carbon production, understanding the effect kind of farm management options is critical. Currently, a sustainable production system entails effective energy use with reduced environmental impact. Considering the quantum of inputs in coffee production, this study deals with the evaluation of energy flow and environmental footprints of coffee-pepper farms of Karnataka, India. The aim is to ensure the socio-economic and environmental sustainability of coffee-pepper production systems. The evaluation was made for 108 farms, categorized into conventional farming (CF), integrated production (IP), and organic farming (OF) systems, using both data envelopment analysis (DEA) and Life cycle Assessment (LCA) methodologies. A cradle-to-gate perspective was used to evaluate the life cycle environmental impacts. The functional unit is one ha of the cropping system, used for producing both crops (coffee and pepper). The energy analysis revealed higher energy use efficiency (2.3), net energy gain (18,890 MJ/ha), and farm autonomy (0.3) in the OF system. Higher energy consumption in CF and IP was attributed to the N fertilizer use (38% & 32%, respectively), followed by lime (20% & 17%, respectively). The DEA indicated that the average technical efficiency of the farming system was 0.82 for the CF and 0.76 for the IP. This implies farmers can save 18 and 24% of the resources in the CF and the IP systems, respectively. These farms performed more efficiently with a mean economic saving of 497 and 540 USD, respectively compared to the CF. The on-farm greenhouse gas (GHG) emissions were the major contributor to the global warming potential; contributing 59%, 62%, and 62%, respectively in the CF, IP, and OF. The overall GHG emissions in the OF systems were 65% lower compared to the CF. The IP and OF systems showed better environmental and energy gains compared to the CF for most of the selected sustainability metrics. Hence, large-scale adoption of the OF practices or reducing the use of external inputs can help to achieve higher energy efficiency and to reduce environmental impacts associated with conventional farming systems.

Published

2022

47. A five years study on the selection of rice based cropping systems in Goa, for west coast region of India

Author

G. R. Mahajan, Bappa Das, Narendra Singh, Venkatesh Paramesh, B. L. Manjunath, and K. V. Reddy

Subjects

Environmental Engineering, business.industry, Monocropping, Health, Toxicology and Mutagenesis, Benefit–cost ratio, 04 agricultural and veterinary sciences, 010501 environmental sciences, Toxicology, 01 natural sciences, Nutrient, Agronomy, Agriculture, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Economic analysis, West coast, Cropping system, business, Cropping, 0105 earth and related environmental sciences, Mathematics

Abstract

Aim: Field experiments were conducted for five years during 2010-11 to 2014-15 to select productive and profitable rice based cropping systems for West coast region of India at ICAR-Central Coastal Agricultural Research Institute, Goa. Methodology: Cropping systems viz. rice-cowpea, rice-groundnut, rice-brinjal and rice-sweet corn were tested for their production potential, economic feasibility, nutrient balance and energy budgeting along with rice-fallow as control. Results: The data indicated significantly higher rice equivalent yield (23.5 t ha) with rice-sweet corn followed by rice-brinjal (14.1 t ha) as compared to a predominant rice-fallow system of the region (5.50 t ha). Higher potential usable residue was also found higher with rice- sweet corn system (36.9 t ha). Results of the energy ratio (46.5), specific energy (0.65 MJ kg) and energy productivity (1.52 kg MJ) indicate that the rice-sweet corn is most energy efficient system among all the evaluated systems. Although, rice-brinjal system depicted higher onfarm employment potential (217 man days ha year) with an increase of 317 % over monocropping, while the economic analysis indicted higher net return (. 95350) and benefit cost ratio (2.57) in rice-sweet corn system. The nutrient balance were positive for N and P, while in all the cropping systems the K balance was found negative. Interpretation: The rice-sweet corn system was found to be the most productive, economical and energy efficient cropping system for the West coast region of India under protective irrigated conditions.

Published

2018

48. Optimization of energy consumption and environmental impacts of arecanut production through coupled data envelopment analysis and life cycle assessment

Author

Sami Ghnimi, Amin Nikkhah, Bappa Das, V. Arunachalam, Venkatesh Paramesh, Universiteit Gent = Ghent University [Belgium] (UGENT), ASharqiyah University, United Arab Emirates University (UAEU), Université de Strasbourg (UNISTRA), Université de Technologie de Compiègne (UTC), and ISARA-Lyon

Subjects

020209 energy, Strategy and Management, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, 7. Clean energy, Industrial and Manufacturing Engineering, 12. Responsible consumption, Agricultural science, [SDV.IDA]Life Sciences [q-bio]/Food engineering, 0202 electrical engineering, electronic engineering, information engineering, Data envelopment analysis, Environmental impact assessment, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, Agricultural productivity, Hectare, Life-cycle assessment, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences, General Environmental Science, 2. Zero hunger, Sustainable development, Renewable Energy, Sustainability and the Environment, Crop yield, Energy consumption, 15. Life on land, 6. Clean water, 13. Climate action, Environmental science, [SDV.AEN]Life Sciences [q-bio]/Food and Nutrition

Abstract

Energy flow and environmental impact are the key factors toward sustainable development of agricultural production. The objective of the current study is to optimize the energy consumption and assess the environmental impacts of arecanut production. The data were collected from 70 arecanut producers from the Goa state of India. The environmental impacts were investigated with a cradle to gate perspective; using, raw materials extraction, manufacture, use, and supply of inputs to the farm. The functional units considered were one tonne of arecanut production (mass-based) and 1-ha area of arecanut (land-based). The data envelopment analysis indicated the average technical efficiency of arecanut farms as 0.89, implying the potential of saving the resources to the tune of 11% with a mean economic saving of 413 $ ha−1 year−1 without reducing the arecanut yield. Human labor, irrigation, manures, and chemical fertilizers were the major energy consumers in the system. The life cycle assessment indicated on-farm emissions as the hotspot for the respiratory inorganics, terrestrial acid/nutria, and aquatic acidification impact categories. Arecanut production had the highest negative impact on human health followed by ecosystem quality. The global warming potential of arecanut production works out to be 959.87 and 2399.25 kg CO2 eq. per tonne and per hectare basis, respectively. In conclusion, efficient use of inputs in synchrony with crop requirement, advance irrigation methods, and efficient machinery usage may be adopted to curtail the environmental impact of arecanut production in the region.

Published

2018

49. Microbial Biomass Carbon, Activity of Soil Enzymes, Nutrient Availability, Root Growth, and Total Biomass Production in Wheat Cultivars under Variable Irrigation and Nutrient Management

Author

P. K. Upadhyay, Fatemah H. Alkallas, Venkatesh Paramesh, Bipin Kumar, Sangeeta Paul, Shaimaa A. M. Abdelmohsen, Hosam O. Elansary, Shiva Dhar, Amit Kumar, Anchal Dass, Tarek K. Zin El-Abedin, and Ashraf M. M. Abdelbacki

Subjects

Irrigation, irrigation schedules, Biomass, 010501 environmental sciences, Biology, engineering.material, 01 natural sciences, lcsh:Agriculture, Crop, Nutrient, 0105 earth and related environmental sciences, Soil health, Nutrient management, organic carbon, lcsh:S, Acid phosphatase, food and beverages, 04 agricultural and veterinary sciences, Agronomy, nutrient management, microbial biomass carbon, 040103 agronomy & agriculture, biology.protein, engineering, 0401 agriculture, forestry, and fisheries, Fertilizer, soil enzymes, Agronomy and Crop Science, biomaterials

Abstract

Intensive mono-cropping without a balanced supply of nutrients and declining water resources are degrading soil health, and as a consequence, agriculture production is becoming unsustainable and causing environmental degradation. The field experiment was conducted during Rabi season to assess the effect of an irrigation schedule, nutrient management, and wheat (Triticum aestivum L.) varieties on soil microbial biomass carbon (SMBC) and soil enzymes activities. Two nutrient levels, recommended rate of chemical fertilizer (RDF) and 50% RDF + 50% recommended dose of nitrogen (RDN) through farmyard manure (FYM) designated as Integrated Nutrient Sources (INS), and three irrigations levels, one irrigation at crown root initiation (CRI), two irrigations at CRI and flowering stages, and five irrigations at all main stages of the crop (CRI, tillering, jointing, flowering, and grain filling) were allocated to main-plots while four varieties of wheat, HD 2967, WR 544, HD 2987, and HD 2932, were allocated to sub-plots. The results revealed that SMBC and activities of dehydrogenase, alkaline phosphatase enzymes, and acid phosphatase were higher under restricted irrigation (irrigation at CRI stage) than other irrigation schedules. SMBC, dehydrogenase, acid phosphatase, and alkaline phosphatase activities were 73.0 µg g soil−1, 86.0 µg TPF g soil−1d−1, 39.6 µg PNP g soil−1 h1, and 81.8 µg PNP g−1 soil h−1, respectively, with the use of INS that was higher than RDF. Root weight and root volume followed a similar pattern. Applying single irrigation at CRI left behind the maximum available nitrogen (166.4 kg ha−1) in soil compared to other irrigation schedules and it was highest (149.31 kg ha−1) with the use of INS. Moreover, total organic carbon (TOC) was 0.44 and 0.43% higher with irrigation at CRI stages and the use of INS, respectively. The INS with single irrigation at the CRI stage is important to improve the root growth, SMBC dehydrogenase, alkaline phosphatase, and acid phosphatase enzyme activity in the wheat production system.

Published

2021

50. Assessment of Sustainability and Priorities for Development of Indian West Coast Region: An Application of Sustainable Livelihood Security Indicators

Author

K. S. Shashidhar, Dendi Damodar Reddy, Diaa O. El-Ansary, Venkatesh Paramesh, Viswanatha Reddy Krishna, Bappa Das, Eman A. Mahmoud, Mohamed A. El-Sheikh, V. Arunachalam, Arjun Parab, and Hosam O. Elansary

Subjects

Security index, 010504 meteorology & atmospheric sciences, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, India, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Agricultural economics, West coast, development, lcsh:Environmental sciences, 0105 earth and related environmental sciences, lcsh:GE1-350, sustainable livelihood security index, Sustainable development, Renewable Energy, Sustainability and the Environment, lcsh:Environmental effects of industries and plants, Investment (macroeconomics), indicators, Ecological indicator, lcsh:TD194-195, Geography, Sustainable livelihood, west coast, Sustainability, Land degradation, planning, policy

Abstract

The measurement of sustainability in terms of social, economic, and ecological indicators significantly influences the achievement of sustainable development goals. This paper presents a sustainable livelihood security index (SLSI) by selecting 20 indicators and positions them within the ecological, economic, and social dimensions of sustainable development for the Indian west coast. These indicators were first normalized and, using estimated weights, indices were computed. Important indicators were shortlisted by a two-step process, namely, principal component analysis and linear and nonlinear weighted scores. The results revealed that indicators such as forest cover, net sown area, milk availability, groundwater availability, land productivity, food grain availability, rural road connectivity, villages electrified, and land degradation were found to be important indicators. Kerala was found as the most developed state followed by Gujarat, Karnataka, Maharashtra, and Goa in linear and non-linear weighted scoring. The study identifies the Jamnagar, Junagadh, Kachchh, Ratnagiri, and Sindhudurg districts as the districts with the highest priority for development through investment and policy interventions. The study concludes that the west coast region, in terms of its sustainable development levels, improved significantly with a focus on low-SLSI districts by considering ecological, economic, and social dimensions in planning for technological development and dissemination.

Published

2020