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Yıl 2022, Cilt: 15 Sayı: 3, 900 - 915, 30.12.2022
https://doi.org/10.18185/erzifbed.1194500

Öz

Kaynakça

  • [1] Maillard, E., Angers, D.A., (2014) Animal manure application and soil organic carbon stocks: a meta-analysis. Global Change Biology, (20) 666-679.
  • [2] Liang, Q., Chen, H., Gong, Y., Yang, H., Fan, M., Kuzyakov, Y., (2014) Effects of 15 years of manure and inorganic fertilizers on enzyme activities in particle-size fractions in a North China Plain soil. European Journal of Soil Biology, (60) 112-119.
  • [3] Garcia-Orenes, F., Roldan, A., Morugan-Coronado, A., Linares, C., Cerda, A., Caravaca, F., (2016) Organic fertilization in traditional Mediterranean grapevine orchards mediates changes in soil microbial community structure and enhances soil fertility. Land Degrad. Develop. (27) 1622–1628.
  • [4] Li, Z., Wang, M., Yang, Y., Zhao, S., Zhang, Y., Wang, X., (2017) Effect of composted manure plus chemical fertilizer application on aridity response and productivity of apple trees on the loess plateau, China. Arid Land Research Manage. (31) 388–403.
  • [5] Ali, S., Hayat, R., Begum, F., Bohannan, B.J.M. Inebert, L., Meyer, K., (2017) Variation in soil physical, chemical and microbial parameters under different land uses in Bagrot Valley, Gilgit, Pakistan. Journal of the Chemical Society of Pakistan, (39) 97-107.
  • [6] Wang, Y., Ge, T., Kuzyakov, Y., Hu, N., Wang, Z.L., Li, Z., Tang, Z., Chen, Wu, Y.C., Lou, Y., (2017) Soil aggregation regulates distributions of carbon, microbial community and enzyme activities after 23-year manure amendment. Applied Soil Ecology, (111) 65-72.
  • [7] Kiczorowski, P., Kopacki, M., Kiczorowska, B., (2018) The response of Sampion trees growing on different rootstocks to applied organic mulches and mycorrhizal substrate in the orchard. Sci. Hortic. (241) 267–274.
  • [8] Lin, Y., Ye, G., Kuzyakov, Y., Liu, D., Fan, J., Ding, W., (2019) Long-term manure application increases soil organic matter and aggregation, and alters microbial community structure and keystone taxa. Soil Biol. Biochem. (134) 187–196.
  • [9] Ye, G., Lin, Y., Kuzyakov, Y., Liu, D., Luo, J., Lindsey, S., Wang, W., Fan, J., Ding, W., (2019) Manure over crop residues increases soil organic matter but decreases microbial necromass relative contribution in upland Ultisols: results of a 27-year field experiment. Soil Biol. Biochem. (134) 15–24.
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  • [11] Das, S., Hussain, N., Gogoi, B., Buragohain, A.K., Bhattacharya, S.S., (2016) Vermicompost and farmyard manure improves food quality, antioxidant and antibacterial potential of Cajanus cajan (L. Mill sp.) leaves. J. Sci. Food Agric. (97) 956–966.
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  • [23] Meissner, G., Athmann, M.E., Fritz, J., Kauer, R., Stoll, M., Schultz, H.R., (2019) Conversion to organic and biodynamic viticultural practices: impact on soil, grapevine development and grape quality. OENO One, 53(4) 639-659.
  • [24] Loss, A., Couto, R., Brunetto, G., Veiga M., Toselli, M., Baldi E., (2019) Animal manure as fertilizer: changes in soil attributes, productivity and food composition. International Journal of Research –Granthaalayah. 7(9) 307-331.
  • [25] Tardaguila, J., Baluja, J., Arpon, L., (2011) Variations of soil properties affect the vegetative growth and yield components of “Tempranillo” grapevines. Precision Agric (12) 762–773.
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  • [29] Crecchio, C., Curci, M., Mininni, R., Ricciuti, P., Ruggiero, P., (2001) Short-term effects of municipal solid waste compost amendments on soil carbon and nitrogen content, some enzyme activities and genetic diversity. Biology and Fertility of Soils, 34(5) 311-318.
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  • [34] Wright, J.,W., (1976) Introduction to Forest Genetics. Academic Press 463, New York, USA.
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  • [39] Nelson, D.W., Sommers, L.E., (1982) Total carbon, organic carbon, and organic matter. In: Page, A. (Ed.), Methods of soil analysis. part 2. Chemical and Microbiological Properties. Madison, 2nd edition. Agronomy (9) 539-579, 1159 Wisconsin USA.
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The Effects of Cattle and Sheep Manure Applications on Soil Physical Properties and Rooting and Shoot Development of Grapevines Cuttings

Yıl 2022, Cilt: 15 Sayı: 3, 900 - 915, 30.12.2022
https://doi.org/10.18185/erzifbed.1194500

Öz

The amount of organic matter plays an important role in the structural improvement of soils and ensuring sustainable soil fertility. In this study, the effects of cattle and sheep fertilizer applications at different doses on soil physical properties, and in parallel with, the effects on rooting and shoot development of vine cuttings were investigated. In this study, 10%, 20% and 30% cattle and sheep fertilizer was mixed into the soil as rooting medium, and the rooting and shooting performances of Karaerik and Narince grape varieties were evaluated in greenhouse conditions. During the experiment, the bud burst rates of the cuttings were recorded, and at the end of the experiment, the aggregate stability values, water permeability, bulk density, total porosity of the soil and plant parameters such as the root length, the root number, shoot length and the leaf number of the grapevines were determined. In this study, it was determined that the increase in the amount of organic matter improves the physical properties of the soil and increases the aeration capacity, and has a significant effect on the bud burst rate, rooting and shooting performance of the cuttings. As a result of the study, it was determined that sheep fertilizer was more effective in root development and cattle fertilizer in shoot development of Karaerik grape variety. It has been revealed that sheep fertilizer gives more positive results on both root and shoot development than cattle fertilizer in Narince grape variety.

Kaynakça

  • [1] Maillard, E., Angers, D.A., (2014) Animal manure application and soil organic carbon stocks: a meta-analysis. Global Change Biology, (20) 666-679.
  • [2] Liang, Q., Chen, H., Gong, Y., Yang, H., Fan, M., Kuzyakov, Y., (2014) Effects of 15 years of manure and inorganic fertilizers on enzyme activities in particle-size fractions in a North China Plain soil. European Journal of Soil Biology, (60) 112-119.
  • [3] Garcia-Orenes, F., Roldan, A., Morugan-Coronado, A., Linares, C., Cerda, A., Caravaca, F., (2016) Organic fertilization in traditional Mediterranean grapevine orchards mediates changes in soil microbial community structure and enhances soil fertility. Land Degrad. Develop. (27) 1622–1628.
  • [4] Li, Z., Wang, M., Yang, Y., Zhao, S., Zhang, Y., Wang, X., (2017) Effect of composted manure plus chemical fertilizer application on aridity response and productivity of apple trees on the loess plateau, China. Arid Land Research Manage. (31) 388–403.
  • [5] Ali, S., Hayat, R., Begum, F., Bohannan, B.J.M. Inebert, L., Meyer, K., (2017) Variation in soil physical, chemical and microbial parameters under different land uses in Bagrot Valley, Gilgit, Pakistan. Journal of the Chemical Society of Pakistan, (39) 97-107.
  • [6] Wang, Y., Ge, T., Kuzyakov, Y., Hu, N., Wang, Z.L., Li, Z., Tang, Z., Chen, Wu, Y.C., Lou, Y., (2017) Soil aggregation regulates distributions of carbon, microbial community and enzyme activities after 23-year manure amendment. Applied Soil Ecology, (111) 65-72.
  • [7] Kiczorowski, P., Kopacki, M., Kiczorowska, B., (2018) The response of Sampion trees growing on different rootstocks to applied organic mulches and mycorrhizal substrate in the orchard. Sci. Hortic. (241) 267–274.
  • [8] Lin, Y., Ye, G., Kuzyakov, Y., Liu, D., Fan, J., Ding, W., (2019) Long-term manure application increases soil organic matter and aggregation, and alters microbial community structure and keystone taxa. Soil Biol. Biochem. (134) 187–196.
  • [9] Ye, G., Lin, Y., Kuzyakov, Y., Liu, D., Luo, J., Lindsey, S., Wang, W., Fan, J., Ding, W., (2019) Manure over crop residues increases soil organic matter but decreases microbial necromass relative contribution in upland Ultisols: results of a 27-year field experiment. Soil Biol. Biochem. (134) 15–24.
  • [10] Bender, D., Erdal, İ., Dengiz, O., Gürbüz, M., Tarakçıoğlu, C., (1998) Farklı Organik Materyallerin Killi Bir Toprağın Bazı Fiziksel Özellikleri Üzerine Etkileri. International Symposium On Arid Region Soil. 21-24 September, Menemen-İzmir-Turkey.
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  • [12] Stratton, M. L., Barker, A. V., Rechcigl, J. E. (Ed.)., 1995. Soil Amendments and Environmental Quality. CRC Press, USA, 249-309.
  • [13] Tiessen, H., Cuevas, E., Chacon. P., (1994) The role of soil organic-matter in sustaning soil fertility Nature, (371) 783-785.
  • [14] Manlay, R.J., Feller, C., Swift. M.J., (2007) Historical evolution of soil organic matter concepts and their relationships with the fertility and sustainability of cropping systems. Agriculture, Ecosystems & Environment, (119) 217-233.
  • [15] Sommerfieldt, T.G., Chang, C., (1985) Changes in Soil Properties Under Annual Applications of Feedlot Manure and Different Tillage Practices. Soil Sci. Soc. Am. J. (49) 983-987.
  • [16] Xiying, H., Chi, C., Greg, R. T and Fengrong, Z., (2003) Soil Carbon and Nitrogen Response to 25 Annual Cattle Manure Application. Journal of Plant Nutrition and Soil Science. Vol. 166 (2) 239-245.
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  • [20] Chatzistathis, T., Papadakis, I.E., Papaioannou, A., Chatzissavvidis, C., Giannakoula, A., (2020) Comparative study effects between manure application and a controlled release fertilizer on the growth, nutrient uptake, photosystem II activity and photosynthetic rate of Olea europaea L. (cv. ‘Koroneiki’). Scientia Horticulturae, 264 (109176).
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  • [23] Meissner, G., Athmann, M.E., Fritz, J., Kauer, R., Stoll, M., Schultz, H.R., (2019) Conversion to organic and biodynamic viticultural practices: impact on soil, grapevine development and grape quality. OENO One, 53(4) 639-659.
  • [24] Loss, A., Couto, R., Brunetto, G., Veiga M., Toselli, M., Baldi E., (2019) Animal manure as fertilizer: changes in soil attributes, productivity and food composition. International Journal of Research –Granthaalayah. 7(9) 307-331.
  • [25] Tardaguila, J., Baluja, J., Arpon, L., (2011) Variations of soil properties affect the vegetative growth and yield components of “Tempranillo” grapevines. Precision Agric (12) 762–773.
  • [26] Cortell, J.M., Halbleib, M., Gallagher, A.V., Righetti, T.L., Kennedy, J.A., (2005) Influence of vine vigor on grape (Vitis vinifera L. cv Pinot Noir) and wine proanthocyanidins. Journal of Agriculture Food Chemistry, (53) 5798–5808.
  • [27] Reynolds, A.G., Senchuk, I.V., van der Reest, C., de Savigny, C., (2007) Use of GPS and GIS for elucidation of the basis for terroir, spatial variation in an Ontario Riesling vineyard. American Journal of Enology and Viticulture, (58) 145–162.
  • [28] Andreas-de Prado, R., Yuste-Rojas, M., Sort, X., Andreas-Lacueva, C., Torres, M., Rosa, M., (2007) Effect of soil type on wines produced from Vitis vinifera L. cv. Grenache in commercial vineyards. Journal of Agriculture Food Chemistry, (55) 779–786.
  • [29] Crecchio, C., Curci, M., Mininni, R., Ricciuti, P., Ruggiero, P., (2001) Short-term effects of municipal solid waste compost amendments on soil carbon and nitrogen content, some enzyme activities and genetic diversity. Biology and Fertility of Soils, 34(5) 311-318.
  • [30] Adekiya, A.O., Ejue, W.S., Olayanju, A., (2020) Different organic manure sources and NPK fertilizer on soil chemical properties, growth, yield and quality of okra. Sci Rep (10) 16083.
  • [31] Polat, A.A., (1990) Investigations on loquat (Eriobotrya japonica Lindl.) propaga-tion by air-layering, cutting and different budding methods on various root-stocks. PhD thesis, Cukurova University, Institute of Natural Science, Adana, Turkey, 297
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  • [33] Smart, D.R., Kocsis, L., Andrew Walker, M., (2002) Dormant Buds and Adventitious Root Formation by Vitis and Other Woody Plants . J Plant Growth Regul (21) 296–314.
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  • [39] Nelson, D.W., Sommers, L.E., (1982) Total carbon, organic carbon, and organic matter. In: Page, A. (Ed.), Methods of soil analysis. part 2. Chemical and Microbiological Properties. Madison, 2nd edition. Agronomy (9) 539-579, 1159 Wisconsin USA.
  • [40] Rhoades, J.D., (1982) Soluble salts. In: Page, A. (Ed.), Methods of Soil Analysis. Part 2. Chemical and Microbiological Properties. 2nd Edition. Agronomy (9) 167-178, 1159 Madison, isconsin USA.
  • [41] Kemper W.D., Rosenau R.C., Aggregate stability and size distribution. Methods of soil analysis. Physical and mineralogical methods. 2nd edition. Agronomy, 9: 425-442, 1986.
  • [42] Blake, G.R., Hartge, K.H., (1986) Bulk density. In A. Klute (ed.), Methods of Soil Analysis. Part 1. 2nd ed. Agronomy Monographs. 9. Soil Science Society of America, Madison, 363-382.
  • [43] Cassel, D.K., Nielsen, D.R., (1986) Field capacity and available water capacity. In A. Klute (ed.), Methods of Soil Analysis. Part 1. 2nd ed. Agronomy Monographs. 9. Soil Science Society of America, Madison, 901-926.
  • [44] Kacar, B., İnal, A., (2008) Bitki analizleri, Fen Bilimleri, Nobel Yayın No: 1241, 892.
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  • [46] SPSS (2011) SPSS for Windows, Version 20, SPSS Inc., USA.
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  • [49] Prasad, B., Sinha, S.K., (2000) Long-Term Effects of Fertilizer and Organic Manures on Crop Yields, Nutrient Balance and Soil Properties in Rice-Wheat Cropping System in Bihar. pp: 105- 119 in Long-Term Soil Fertility Experiments in Rice-Wheat Cropping Systems. Rice-Wheat Consortium Paper Series 6. New Delhi, INDIA.
  • [50] Conceıção, P.C., (2006) Proteção física da matéria orgânica do solo em solos do Sul do Brasil. Porto Alegre, Universidade Federal do Rio Grande do Sul,. 145p. (Tese de Doutorado)
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Toplam 61 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Fazıl Hacımüftüoğlu 0000-0002-2897-8559

Muhammed Küpe 0000-0002-7225-8065

Erken Görünüm Tarihi 27 Aralık 2022
Yayımlanma Tarihi 30 Aralık 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 15 Sayı: 3

Kaynak Göster

APA Hacımüftüoğlu, F., & Küpe, M. (2022). The Effects of Cattle and Sheep Manure Applications on Soil Physical Properties and Rooting and Shoot Development of Grapevines Cuttings. Erzincan University Journal of Science and Technology, 15(3), 900-915. https://doi.org/10.18185/erzifbed.1194500