Eurasian Journal of Soil Science

Volume 11, Issue 4, Oct 2022, Pages 353-362
DOI: 10.18393/ejss.1172771
Stable URL: http://ejss.fess.org/10.18393/ejss.1172771
Copyright © 2022 The authors and Federation of Eurasian Soil Science Societies



Assessing the effect of application of organic manures and grapevine pruned biomass on Thompson Seedless

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Upadhyay,A., Verma,Y., Sharma,J., Mulik,R., Rajput,V., Minkina,T., 2022. Assessing the effect of application of organic manures and grapevine pruned biomass on Thompson Seedless. Eurasian J Soil Sci 11(4):353-362. DOI : 10.18393/ejss.1172771
Upadhyay,A.Verma,Y.,Sharma,J.Mulik,R.Rajput,V.,& Minkina,T. Assessing the effect of application of organic manures and grapevine pruned biomass on Thompson Seedless Eurasian Journal of Soil Science, 11(4):353-362. DOI : 10.18393/ejss.1172771
Upadhyay,A.Verma,Y.,Sharma,J.Mulik,R.Rajput,V., and ,Minkina,T."Assessing the effect of application of organic manures and grapevine pruned biomass on Thompson Seedless" Eurasian Journal of Soil Science, 11.4 (2022):353-362. DOI : 10.18393/ejss.1172771
Upadhyay,A.Verma,Y.,Sharma,J.Mulik,R.Rajput,V., and ,Minkina,T. "Assessing the effect of application of organic manures and grapevine pruned biomass on Thompson Seedless" Eurasian Journal of Soil Science,11(Oct 2022):353-362 DOI : 10.18393/ejss.1172771
A,Upadhyay.Y,Verma.J,Sharma.R,Mulik.V,Rajput.T,Minkina "Assessing the effect of application of organic manures and grapevine pruned biomass on Thompson Seedless" Eurasian J. Soil Sci, vol.11, no.4, pp.353-362 (Oct 2022), DOI : 10.18393/ejss.1172771
Upadhyay,Ajay Kumar ;Verma,Yukti ;Sharma,Jagdev ;Mulik,Ravindra ;Rajput,Vishnu D. ;Minkina,Tatiana Assessing the effect of application of organic manures and grapevine pruned biomass on Thompson Seedless. Eurasian Journal of Soil Science, (2022),11.4:353-362. DOI : 10.18393/ejss.1172771

How to cite

Upadhyay, A., Verma, Y., Sharma, J., Mulik, R., Rajput, V., Minkina, T., 2022. Assessing the effect of application of organic manures and grapevine pruned biomass on Thompson Seedless. Eurasian J. Soil Sci. 11(4): 353-362. DOI : 10.18393/ejss.1172771

Author information

Ajay Kumar Upadhyay , ICAR - National Research Centre for Grapes, Pune - 412307, Maharashtra, India
Yukti Verma , ICAR - National Research Centre for Grapes, Pune - 412307, Maharashtra, India Maharashtra, India
Jagdev Sharma , ICAR - Central Potato Research Institute, Shimla - 171001, Himachal Pradesh, India
Ravindra Mulik , ICAR - National Research Centre for Grapes, Pune - 412307, Maharashtra, India
Vishnu D. Rajput , Southern Federal University, Rostov-on-Don-344090, Russia
Tatiana Minkina , Southern Federal University, Rostov-on-Don-344090, Russia

Publication information

Article first published online : 08 Sep 2022
Manuscript Accepted : 01 Jul 2022
Manuscript Received: 02 Jun 2022
DOI: 10.18393/ejss.1172771
Stable URL: http://ejss.fesss.org/10.18393/ejss.1172771

Abstract

Our soil continues to grapple with a number of familiar challenges like soil infertility, unfavourable soil conditions, and declining soil health as well as quality. These issues are caused by the ongoing crises of climate change, biodiversity loss, pollution, and excessive fertilizer usage alone in intensive cropping. Deterioration of soil health can be alleviated by application of organic fertilizers. With this background, the current experiment was conducted during 2013- 2016 to evaluate the effect of different organic sources viz. farm yard manure (FYM), green manure, press mud compost and grapevine pruning residue on Thompson Seedless and soil organic carbon content. Results indicated that maximum yield of 19.50 t/ha was obtained in T3 (press mud @15ton/ha). The increase in yield was +10.36% and +4.62% over T1 (only Fertigation schedule) and T2 (FYM), respectively. Maximum petiole potassium concentration (1.63%) was recorded in T3 at fruit bud differentiation stage. The soil organic carbon was highest in T4 (FYM @7.5 ton/ha and Press mud @ 7.5 ton/ha) among all the treatments. The increase was +5.6%, +66.66% and +63.56% over T1 in first, second and third year respectively. The gross returns (Rs. 319945/-), net profit (Rs. 121170/-) as well as cost benefit ratio (0.61) was maximum in case of press mud among all the organic sources. On the basis of obtained results, it can be concluded that use of press mud compost or press mud and FYM may be recommended as an organic fertilizer to improve yield and petiole nutrient content of Thompson Seedless as well as soil organic carbon content.

Keywords

Farm yard manure, press mud compost, green manure, petiole, grapes.

Corresponding author

References

Abd El-Hady, A. M., Aly, A.M., El-Mogy, M.M., 2003. Effect of some soil conditioners on counteracting the adverse effects of salinity on growth and fruiting of Flame. Minia Journal of Agricultural Research Development 4(23): 699-726.

Ahmed, F. F., Abd Elaal, A.H., Ali-Mervet, A., 2000. A comparative study for using farmyard manure and filter mud on flame seedless grapevines growing in sandy soil. The 2nd Scientific Conference of Agricultural Sciences, Assiut University, Assiut, Eygpt. 28-30 October 2000, Vol.1, pp.277-284.

Atwood, L.W., Wood, S.A., 2020. AgEvidence: Agro-Environmental Responses of Conservation Agricultural Practices in the US Midwest Published from 1980 to 2020. Knowledge Network for Biocomplexity.

Banulekha, C., 2007. Eco-friendly utilization of organic rich bio-methanated distillery spentwash and biocompost for maximizing the biomass and quality of cumbunapier hybrid fodder (CO3). M.Sc. (Environmental Science) Thesis, Tamil Nadu Agricultural University, Coimbatore.

Barreales, D., Malheiro, R., Pereira, J.A., Verdial, J., Bento, A., Casquero, P.A., Ribeiro, A.C., 2019. Effects of irrigation and collection period on grapevine leaf (Vitis vinifera L. var. Touriga Nacional): Evaluation of the phytochemical composition and antioxidant properties. Scientia Horticulturae 245: 74-81.

Belletti, G., 2003. Le denominazioni geografiche nel supporto all’agricoltura multifunzionale. Politica Agricola Internazionale 4: 81-102.

Biala, J., 2000. The use of recycled organics compost in viticulture - a review of the international literature and experience. Proceedings of the 6th International Congress on Organic Viticulture, 25-26 August 2000, Basel, Switzerland. pp. 130-134.

Bouyoucos, G.J., 1962. Hydrometer method improved for making particle size analyses of soils. Agronomy Journal 54: 464-465.

Brunetto, G., Ceretta, C.A., Melo, G.W.B., Miotto, A., Ferreira, P.A.A., Couto, R.R., Silva, L.O.S., Garlet, L.P., Somavilla, L.M., Cancian, A., Ambrosini, V.G., 2018. Grape yield and must composition of ‘Cabernet Sauvignon’ grapevines with organic compost and urea fertilization. Revista de Ciências Agroveterinárias 17(2): 212-218.

Bustamante, M.A., Said-Pullicino, D., Agulló, E., Andreu, J., Paredes, C., Moral, R., 2011. Application of winery and distillery waste composts to a Jumilla (SE Spain) vineyard: effects on the characteristics of a calcareous sandy-loam soil. Agriculture, Ecosystems and Environment 140: 80-87.

Cass, A., McGrath, M., 2004. Compost benefits and quality for viticultural soils. Proceedings of the Soil Environment and Vine Mineral Nutrition Symposium. Christensen, L.P., Smart, D.R. (Eds.). 29-30 June 2004. San Diego, California, USA. pp. 135-143.

Chan, K.Y., Fahey, D.J., 2011. Effect of composted mulch application on soil and wine grape potassium status. Soil Research 49(5): 455-461.

Cherr, C.M., Scholberg, J.M.S., Mc Sorley, R., 2006. Green manure approaches to crop production. Agronomy Journal 98(2): 302-319.

Colantuono, A., Vitaglione, P., Ferracane, R., Campanella, O.H., Hamaker, B.R., 2017. Development and functional characterization of new antioxidant dietary fibers from pomegranate, olive and artichoke by-products. Food Research International 101: 155-164.

Conradie, W.J., 1986. Utilisation of nitrogen by the grape-vine as affected by time of application and soil type. South African Journal of Enology and Viticulture 7(2): 76-83.

Delay, E., Piou C., Quenol H., 2015. The mountain environment, a driver for adaptation to climate change. Land Use Policy 48: 51-62.

Doshi, P., Adsule, P., Banerjee, K., 2006. Phenolic composition and antioxidant activity in grapevine parts and berries (Vitis vinifera L.) cv. Kishmish Chornyi (Sharad Seedless) during maturation. International Journal of Food Science and Technology 41(s1): 1-9.

Elsayed, M.T., Babiker, M.H., Abdelmalik, M.E., Mukhtar, O.N., Montange, D., 2008. Impact of filter mud applications on the germination of sugarcane and small-seeded plants and on soil and sugarcane nitrogen contents. Bioresource Technology 99(10): 4164-4168.

Euronews, 2022. The fate of our planet hinges on soil, our ‘silent ally', says UN scientist. Available at [Access date : 02.06.2022]: https://www.euronews.com/green/2022/02/12/the-fate-of-our-planet-hinges-on-soil-our-silent-ally-says-un-scientist

FAO, 2022. Land & Water. Food and Agriculture Organization of the United States. Available at [Access date : 02.06.2022]:  http://www.fao.org/land-water/databases-and-software/crop information/tomato/en

Farooq, T.H., Kumar, U., Shakoor, A., 2021. Influence of intraspecific competition stress on soil fungal diversity and composition in relation to tree growth and soil fertility in sub-tropical soils under Chinese fir monoculture. Sustainability 13(19):10688.

Fernandes, F., Ramalhosa, E., Pires, P., Verdial, J., Valentão, P., Andrade, P., Bento, A., Pereira, J.A., 2013. Vitis vinifera leaves towards bioactivity. Industrial Crops and Products 43: 434-440.

Fontana, A.R., Antoniolli, A., Bottini, R., 2017. Utilisation of Bioactive Compounds from Agricultural and Food Production Waste. CRC Press. Boca Raton, FL, USA. 414p.

Gaiotti, F., Marcuzzo, P., Battista, F., Belfiore, N., Petoumenou, D.  Tomasi, D., 2016. Compost amendment effects on grapevine root density and distribution. ISHS Acta Horticulturae 1136: 115-120.

Garcia, L., Celette, F., Gary, C., Ripoche, A., Valdés-Gómez, H., Metay, A., 2018. Management of service crops for the provision of ecosystem services in vineyards: A review. Agriculture, Ecosystems and Environment 251: 158-170.

GBD, 2017. Findings from the Global Burden of Disease Study 2017. Institute for Health Metrics and Evaluation (IHME), Seattle, WA: IHME, USA. 25p. Available at [Access date: 02.06.2022]:  https://www.healthdata.org/sites/default/files/files/policy_report/2019/GBD_2017_Booklet.pdf

Gontier, L., 2013. Green manuring in viticulture: impact of cover crop species and way of destruction on nitrogen supply of the grapevine. 18th International Symposium GiESCO, Porto, Portugal. 7-11 July 2013, pp. 299-304. [in Portuguese]

Hanway, J.J., Heidal, H., 1952. Soil analysis methods as used in Iowa State College Soil Testing Laboratory. Iowa State College of Agriculture Bulletin 57: 1-31.

Harhash, M. M., Abd El-Nasser, G., 2000. Effect of organic manures in combination with elemental sulphur on soil physical and chemical characteristics, yield, fruit quality, leaf water content and nutritional status of Flame Seedless grapevines. Journal of Agricultural Science, Mansoura University 25(5):2819-2837.

Huang, W., McBride, W., Vasavada, U., 2009. Factors Contributing to the Recent Increase in U.S. Fertilizer Prices Horticultural Cropping Systems. Lewis Publishers, New York. USA.

Jackson, M.L., 1967. Soil Chemical Analysis, Prentice Hall of India Private Limited, New Delhi, India. 498p.

Jesus, M.S., Romaní, A., Genisheva, Z., Teixeira, J.A., Domingues, L., 2017. Integral valorization of vine pruning residue by sequential autohydrolysis stages. Journal of Cleaner Production 168:74-86.

Joshi, N., Sharma, S., 2010. Physico-chemical characterization of sulphidation press mud composted press mud and vermicompost press mud. Department of Environmental Sciences, Kanya Gurukul Mahavidyalaya, Gurukul Kangri, Harudwar, Uttarankhand, India. 2(3).

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Abstract

Our soil continues to grapple with a number of familiar challenges like soil infertility, unfavourable soil conditions, and declining soil health as well as quality. These issues are caused by the ongoing crises of climate change, biodiversity loss, pollution, and excessive fertilizer usage alone in intensive cropping. Deterioration of soil health can be alleviated by application of organic fertilizers. With this background, the current experiment was conducted during 2013- 2016 to evaluate the effect of different organic sources viz. farm yard manure (FYM), green manure, press mud compost and grapevine pruning residue on Thompson Seedless and soil organic carbon content. Results indicated that maximum yield of 19.50 t/ha was obtained in T3 (press mud @15ton/ha). The increase in yield was +10.36% and +4.62% over T1 (only Fertigation schedule) and T2 (FYM), respectively. Maximum petiole potassium concentration (1.63%) was recorded in T3 at fruit bud differentiation stage. The soil organic carbon was highest in T4 (FYM @7.5 ton/ha and Press mud @ 7.5 ton/ha) among all the treatments. The increase was +5.6%, +66.66% and +63.56% over T1 in first, second and third year respectively.  The gross returns (Rs. 319945/-), net profit (Rs. 121170/-) as well as cost benefit ratio (0.61) was maximum in case of press mud among all the organic sources. On the basis of obtained results, it can be concluded that use of press mud compost or press mud and FYM may be recommended as an organic fertilizer to improve yield and petiole nutrient content of Thompson Seedless as well as soil organic carbon content.

Keywords: Farm yard manure, press mud compost, green manure, petiole, grapes.

References

Abd El-Hady, A. M., Aly, A.M., El-Mogy, M.M., 2003. Effect of some soil conditioners on counteracting the adverse effects of salinity on growth and fruiting of Flame. Minia Journal of Agricultural Research Development 4(23): 699-726.

Ahmed, F. F., Abd Elaal, A.H., Ali-Mervet, A., 2000. A comparative study for using farmyard manure and filter mud on flame seedless grapevines growing in sandy soil. The 2nd Scientific Conference of Agricultural Sciences, Assiut University, Assiut, Eygpt. 28-30 October 2000, Vol.1, pp.277-284.

Atwood, L.W., Wood, S.A., 2020. AgEvidence: Agro-Environmental Responses of Conservation Agricultural Practices in the US Midwest Published from 1980 to 2020. Knowledge Network for Biocomplexity.

Banulekha, C., 2007. Eco-friendly utilization of organic rich bio-methanated distillery spentwash and biocompost for maximizing the biomass and quality of cumbunapier hybrid fodder (CO3). M.Sc. (Environmental Science) Thesis, Tamil Nadu Agricultural University, Coimbatore.

Barreales, D., Malheiro, R., Pereira, J.A., Verdial, J., Bento, A., Casquero, P.A., Ribeiro, A.C., 2019. Effects of irrigation and collection period on grapevine leaf (Vitis vinifera L. var. Touriga Nacional): Evaluation of the phytochemical composition and antioxidant properties. Scientia Horticulturae 245: 74-81.

Belletti, G., 2003. Le denominazioni geografiche nel supporto all’agricoltura multifunzionale. Politica Agricola Internazionale 4: 81-102.

Biala, J., 2000. The use of recycled organics compost in viticulture - a review of the international literature and experience. Proceedings of the 6th International Congress on Organic Viticulture, 25-26 August 2000, Basel, Switzerland. pp. 130-134.

Bouyoucos, G.J., 1962. Hydrometer method improved for making particle size analyses of soils. Agronomy Journal 54: 464-465.

Brunetto, G., Ceretta, C.A., Melo, G.W.B., Miotto, A., Ferreira, P.A.A., Couto, R.R., Silva, L.O.S., Garlet, L.P., Somavilla, L.M., Cancian, A., Ambrosini, V.G., 2018. Grape yield and must composition of ‘Cabernet Sauvignon’ grapevines with organic compost and urea fertilization. Revista de Ciências Agroveterinárias 17(2): 212-218.

Bustamante, M.A., Said-Pullicino, D., Agulló, E., Andreu, J., Paredes, C., Moral, R., 2011. Application of winery and distillery waste composts to a Jumilla (SE Spain) vineyard: effects on the characteristics of a calcareous sandy-loam soil. Agriculture, Ecosystems and Environment 140: 80-87.

Cass, A., McGrath, M., 2004. Compost benefits and quality for viticultural soils. Proceedings of the Soil Environment and Vine Mineral Nutrition Symposium. Christensen, L.P., Smart, D.R. (Eds.). 29-30 June 2004. San Diego, California, USA. pp. 135-143.

Chan, K.Y., Fahey, D.J., 2011. Effect of composted mulch application on soil and wine grape potassium status. Soil Research 49(5): 455-461.

Cherr, C.M., Scholberg, J.M.S., Mc Sorley, R., 2006. Green manure approaches to crop production. Agronomy Journal 98(2): 302-319.

Colantuono, A., Vitaglione, P., Ferracane, R., Campanella, O.H., Hamaker, B.R., 2017. Development and functional characterization of new antioxidant dietary fibers from pomegranate, olive and artichoke by-products. Food Research International 101: 155-164.

Conradie, W.J., 1986. Utilisation of nitrogen by the grape-vine as affected by time of application and soil type. South African Journal of Enology and Viticulture 7(2): 76-83.

Delay, E., Piou C., Quenol H., 2015. The mountain environment, a driver for adaptation to climate change. Land Use Policy 48: 51-62.

Doshi, P., Adsule, P., Banerjee, K., 2006. Phenolic composition and antioxidant activity in grapevine parts and berries (Vitis vinifera L.) cv. Kishmish Chornyi (Sharad Seedless) during maturation. International Journal of Food Science and Technology 41(s1): 1-9.

Elsayed, M.T., Babiker, M.H., Abdelmalik, M.E., Mukhtar, O.N., Montange, D., 2008. Impact of filter mud applications on the germination of sugarcane and small-seeded plants and on soil and sugarcane nitrogen contents. Bioresource Technology 99(10): 4164-4168.

Euronews, 2022. The fate of our planet hinges on soil, our ‘silent ally', says UN scientist. Available at [Access date : 02.06.2022]: https://www.euronews.com/green/2022/02/12/the-fate-of-our-planet-hinges-on-soil-our-silent-ally-says-un-scientist

FAO, 2022. Land & Water. Food and Agriculture Organization of the United States. Available at [Access date : 02.06.2022]:  http://www.fao.org/land-water/databases-and-software/crop information/tomato/en

Farooq, T.H., Kumar, U., Shakoor, A., 2021. Influence of intraspecific competition stress on soil fungal diversity and composition in relation to tree growth and soil fertility in sub-tropical soils under Chinese fir monoculture. Sustainability 13(19):10688.

Fernandes, F., Ramalhosa, E., Pires, P., Verdial, J., Valentão, P., Andrade, P., Bento, A., Pereira, J.A., 2013. Vitis vinifera leaves towards bioactivity. Industrial Crops and Products 43: 434-440.

Fontana, A.R., Antoniolli, A., Bottini, R., 2017. Utilisation of Bioactive Compounds from Agricultural and Food Production Waste. CRC Press. Boca Raton, FL, USA. 414p.

Gaiotti, F., Marcuzzo, P., Battista, F., Belfiore, N., Petoumenou, D.  Tomasi, D., 2016. Compost amendment effects on grapevine root density and distribution. ISHS Acta Horticulturae 1136: 115-120.

Garcia, L., Celette, F., Gary, C., Ripoche, A., Valdés-Gómez, H., Metay, A., 2018. Management of service crops for the provision of ecosystem services in vineyards: A review. Agriculture, Ecosystems and Environment 251: 158-170.

GBD, 2017. Findings from the Global Burden of Disease Study 2017. Institute for Health Metrics and Evaluation (IHME), Seattle, WA: IHME, USA. 25p. Available at [Access date: 02.06.2022]:  https://www.healthdata.org/sites/default/files/files/policy_report/2019/GBD_2017_Booklet.pdf

Gontier, L., 2013. Green manuring in viticulture: impact of cover crop species and way of destruction on nitrogen supply of the grapevine. 18th International Symposium GiESCO, Porto, Portugal. 7-11 July 2013, pp. 299-304. [in Portuguese]

Hanway, J.J., Heidal, H., 1952. Soil analysis methods as used in Iowa State College Soil Testing Laboratory. Iowa State College of Agriculture Bulletin 57: 1-31.

Harhash, M. M., Abd El-Nasser, G., 2000. Effect of organic manures in combination with elemental sulphur on soil physical and chemical characteristics, yield, fruit quality, leaf water content and nutritional status of Flame Seedless grapevines. Journal of Agricultural Science, Mansoura University 25(5):2819-2837.

Huang, W., McBride, W., Vasavada, U., 2009. Factors Contributing to the Recent Increase in U.S. Fertilizer Prices Horticultural Cropping Systems. Lewis Publishers, New York. USA.

Jackson, M.L., 1967. Soil Chemical Analysis, Prentice Hall of India Private Limited, New Delhi, India. 498p.

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