Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition

Ozdemir, Saim; TURP, G.Aslı

doi:10.35208/ert.1226092

Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition

G.Aslı TURP, (Sakarya Üniversitesi, Mühendislik Fakültesi, Çevre Mühendisliği Bölümü, Sakarya, Türkiye)

Saim Ozdemir (Sakarya Üniversitesi, Mühendislik Fakültesi, Çevre Mühendisliği Bölümü, Sakarya, Türkiye)

Environmental Research & Technology

0 0

Yıl: 2023 Cilt: 6 Sayı: 1 Sayfa Aralığı: 46 - 53 Metin Dili: İngilizce DOI: 10.35208/ert.1226092 İndeks Tarihi: 22-05-2023

Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition

Öz:

Generation of the huge amount of bio-waste and their residues, including incineration ash, is a major technical and sustainability problem. To solve this problem, incorporating nutrient-rich residues into crop production has become an efficient practice to increase crop production. Vermicomposting of these wastes could be a viable option to manage both biowastes and their products in an environmentally friendly manner and close the material loop in bioenergy production. Therefore, the main objective of this study was to investigate the effect of vermicompost from biomass ash under hot and dry climatic conditions in summer on growth, yield and yield components of sweet sorghum (Sorghum bicolor var. saccharatum (L.) Mohlenbr). The high photosynthetic activity of sweet sorghum is important for biofuel production under conditions of high solar energy and water scarcity. This study provides a general overview of the feasibility of biomass ash vermicomposting processes and their potential use as a nutrient source for C4 sorghum under Bitlis ecological conditions of high solar potential and low water availability. Under Bitlis climatic conditions, the best yield was obtained when vermicompost was applied with a biomass ash content of 10.0% (T3). Plant height, plant weight, sugarcane and juice yields were reported as 133 cm, 146 g, 180 kg/da and 105 L/da, respectively.

Anahtar Kelime: Biomass biomass ash brix sweet sorghum vermicompost application yield

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1] J. Zhai, I. T. Burke, and D. I. Stewart, “Beneficial management of biomass combustion ashes,” Renew- able and Sustainable Energy Reviews, Vol. 151, Arti- cle 111555, 2021. [CrossRef]
[2] O. H. Dede, and H. Ozer, “Enrichment of poultry manure with biomass ash to produce organominer- alfertiliser,” Environmental Engineering Research, Vol. 23(4), pp. 449–455, 2018. [CrossRef]
[3] S., Ozdemir, and G. A. Turp, “The impact of the pyroligneous acid-assisted biomass ash vermi- compost on dry beans through climatic and agro- ecosystem changes,” Journal of Material Cycles and Waste Management, Vol. 25, pp. 490–500, 2022. [CrossRef]
[4] B. Sen, S. Topcu, M. Turkes, B. Sen, and J. F. Warner, “Projecting climate change, drought conditions and crop productivity in Turkey,” Climate Research, Vol. 52(1), 175–191, 2012. [CrossRef]
[5] L. Bilgili, and A. Y. Çetinkaya, “Application of life cy- cle assessment of system solution scenarios for mu- nicipal solid waste management in Turkey,” Journal of Material Cycles and Waste Management, Vol. 25, pp. 324–336, 2022. [CrossRef]
[6] A., Durak, O., Altuntaş, I. K. Kutsal, R. Isık, and F. E. Karaat, “The effects of vermicompost on yield and some growth parameters of lettuce,” Turkish Journal of Agriculture-Food Science and Technology, Vol. 5(12), pp. 1566–1570, 2017. [CrossRef]
[7] O. Dede, and D. Akbulut, “Analyzing the effects of biomass and coal ash for the dewatering properties of sewage sludge,” Sakarya University Journal of Sci- ence, Vol. 21(5), pp. 907–914, 2017. [CrossRef]
[8] S. Sonmez, F. Okturen Asri, E. Demir, N. Ozen, and E. Kiliç, “Temporal variation of nitrogen and car- bon mineralizations of different organic materials,” Communications in Soil Science and Plant Analysis, Vol. 53(15), pp. 1865–1875, 2022. [CrossRef]
[9] K. Yetilmezsoy, E. Kiyan, F. Ilhan, D. Ozcimen, and A. T. Kocer, “Screening plant growth effects of sheep slaughterhouse waste-derived soil amendments in greenhouse trials,” Journal of Environmental Man- agement, Vol. 318, Article 115586, 2022. [CrossRef]
[10] S. Asghari, M. R. Neyshabouri, F. Abbasi, N. Aliasgharzad, and S. Oustan, “The effects of four or- ganic soil conditioners on aggregate stability, pore size distribution, and respiration activity in a sandy loam soil,” Turkish Journal of Agriculture and For- estry, Vol. 33(1), 47–55, 2009. [CrossRef]
[11] I. Uz, and I. E. Tavali, “Short-term effect of vermi- compost application on biological properties of an alkaline soil with high lime content from Mediterra- nean region of Turkey,” The Scientific World Journal, Vol. 2014, Article 39528, 2014. [CrossRef]
[12] Z. Demir, and C. Gülser, “Effects of rice husk com- post on some soil properties, water use efficiency and tomato (Solanumlycopersicum L.) yield under greenhouse and field conditions,” Communications in Soil Science and Plant Analysis, Vol. 52(9), pp. 1051–1068, 2021. [CrossRef]
[13] R. I. Nazli, “Evaluation of different sweet sorghum cultivars for bioethanol yield potential and bagasse combustion characteristics in a semiarid Mediter- ranean environment,” Biomass and Bioenergy, Vol. 139, Article 105624, 2020. [CrossRef]
[14] M. Q. Yue, Z. Wang, B. Q. Dun, F. X. Han, and G. Y. Li, “Simplified methods of estimating fermentable sugar yield in sweet sorghum [Sorghum bicolor (L.) Moench] stems.” Industrial Crops and Products, Vol. 169, Article 113652, 2021. [CrossRef]
[15] P. S. da Silva Leite, T. T. Botelho, P. C. de Oliveira Ribeiro, R. E. Schaffert, R. A. da Costa Parrella, and J. A. R. Nunes, “Intrapopulation recurrent selection in sweet sorghum for improving sugar yield,” Indus- trial Crops and Products, Vol. 143, Article 111910, 2020. [CrossRef]
[16] S. Schittenhelm, and S. Schroetter, “Comparison of drought tolerance of maize, sweet sorghum and sorghum sudangrass hybrids,” Journal of Agron- omy and Crop Science, Vol. 200(1), pp. 46 53, 2014. [CrossRef]
[17] A. Almodares, R. Taheri, M. Chung, and M. Fathi, “The effect of nitrogen and potassium fertilizers on growth parameters and carbohydrate contents of sweet sorghum cultivars,” Journal of Environmental Biology, Vol. 29(6), pp. 849–852, 2008.
[18] M. J. Maw, J. H. Houx III, and F. B. Fritschi, “Sweet sorghum ethanol yield component response to ni- trogen fertilization,” Industrial Crops and Products, Vol. 84, pp. 43-49, 2016. [CrossRef]
[19] G. Trouche, D. Bastianelli, T. C. Hamadou, J. Chan- tereau, J. F. Rami, and D. Pot, “Exploring the vari- ability of a photoperiod-in sensitive sorghum ge- netic panel forstem composition and related traits in temperate environments,” Field Crops Research, Vol. 166, pp. 72–81, 2014. [CrossRef]
[20] G. A. Turp, S. M. Turp, S. Ozdemir, and K. Yetil- mezsoy, “Vermicomposting of biomass ash with bio-waste for solubilizing nutrients and its effect on nitrogen fixation in common beans,” Environmental Technology & Innovation, Vol. 23, Article 101691, 2021. [CrossRef]
[21] E. Ceotto, F. Castelli, A. Moschella, M. Diozzi, and M. Di Candilo, “It is not worthwhile to fertilize sweet sorghum (Sorghum bicolor L. Moench) with cattle slurry: Productivity and nitrogen-use effi- ciency,” Industrial Crops and Products, Vol. 62, pp. 380–386, 2014. [CrossRef]
[22] S. Ozdemir, S. Ozdemir, and K. Yetilmezsoy, “Agro economic and ecological assessment of poultry abattoir sludge as bio nutrient source for walnut plantation in low fertility soil,” Environmental Progress & Sustain- able Energy, Vol. 38(6), Article 13225, 2019. [CrossRef]
[23] TR Ministry of Environment Urbanization and Cli- mate Change General Directorate of Meteorology, “Ankara,” http://www.mgm.gov.tr/ Accessed on Feb 10, 2023.
[24] C. E. Vlachos, O. I. Pavli, E. Flemetakis, and G. N. Skaracis, “Exploiting pre and post harvest metabo- lismin sweet sorghum geno types to promote sus- tainable bioenergy production,” Industrial Cropsand Products, Vol. 155, Article 112758, 2020. [CrossRef]
[25] C., Adiyaman, E., Erbil, A. Çelik, H., Hatipoğlu, M., Aksoy, M. Acar, and M. Dok. “Determination of some agricultural and technological characteristics of second product sweet sorghum [Sorghum bicolor (L.) Moench] in Sanlıurfa conditions,” Journal of the Institute of Science and Technology, Vol. 10(4), pp. 3084–3094, 2020. [CrossRef]
[26] C. Asquer, G. Cappai, A. Carucci, G. De Gioannis, A. Muntoni, M. Piredda, and D. Spiga, “Biomass ash characterisation for reuse as additive in composting process,” Biomass and Bioenergy, Vol. 123, pp. 186– 194, 2019. [CrossRef]
[27] S. Shukla, T. J. Felderhoff, A. Saballos, and W. Ver- merris, “The relationship between plant height and sugar accumulation in the stems of sweet sorghum (Sorghum bicolor (L.) Moench),” Field Crops Re- search, Vol. 203, pp. 181–191, 2017. [CrossRef]
[28] G. L. Sawargaonkar, M. D. Patil, S. P. Wani, E. Pa- vani, B. V. S. R., Reddy, and S. Marimuthu, “Nitro- gen response and water use efficiency of sweet sor- ghum cultivars,” Field Crops Research, Vol. 149, pp. 245–251, 2013. [CrossRef]
[29] P. S. Burks, C. M. Kaiser, E. M. Hawkins, and P. J. Brown, “Genome wide association for sugar yield in sweet sorghum,” Crop Science, Vol. 55(5), pp. 2138– 2148, 2015. [CrossRef]

APA	TURP G, Ozdemir S (2023). Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. , 46 - 53. 10.35208/ert.1226092
Chicago	TURP G.Aslı,Ozdemir Saim Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. (2023): 46 - 53. 10.35208/ert.1226092
MLA	TURP G.Aslı,Ozdemir Saim Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. , 2023, ss.46 - 53. 10.35208/ert.1226092
AMA	TURP G,Ozdemir S Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. . 2023; 46 - 53. 10.35208/ert.1226092
Vancouver	TURP G,Ozdemir S Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. . 2023; 46 - 53. 10.35208/ert.1226092
IEEE	TURP G,Ozdemir S "Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition." , ss.46 - 53, 2023. 10.35208/ert.1226092
ISNAD	TURP, G.Aslı - Ozdemir, Saim. "Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition". (2023), 46-53. https://doi.org/10.35208/ert.1226092

APA	TURP G, Ozdemir S (2023). Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. Environmental Research & Technology, 6(1), 46 - 53. 10.35208/ert.1226092
Chicago	TURP G.Aslı,Ozdemir Saim Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. Environmental Research & Technology 6, no.1 (2023): 46 - 53. 10.35208/ert.1226092
MLA	TURP G.Aslı,Ozdemir Saim Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. Environmental Research & Technology, vol.6, no.1, 2023, ss.46 - 53. 10.35208/ert.1226092
AMA	TURP G,Ozdemir S Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. Environmental Research & Technology. 2023; 6(1): 46 - 53. 10.35208/ert.1226092
Vancouver	TURP G,Ozdemir S Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition. Environmental Research & Technology. 2023; 6(1): 46 - 53. 10.35208/ert.1226092
IEEE	TURP G,Ozdemir S "Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition." Environmental Research & Technology, 6, ss.46 - 53, 2023. 10.35208/ert.1226092
ISNAD	TURP, G.Aslı - Ozdemir, Saim. "Effect of biomass ash vermicompost on Sorghum bicolor var. saccharatum (L.) Mohlenbr under hot and dry agro ecological condition". Environmental Research & Technology 6/1 (2023), 46-53. https://doi.org/10.35208/ert.1226092