Research Article
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Year 2020, Volume: 15 Issue: 3, 158 - 166, 30.09.2019

Abstract

References

  • Ahmadpour R, Hosseinzadeh SR, (2017). Effect of vermicompost fertilizer on morphological traits of lentil under water stress. In: Proceeding of the Internatıonal Conference on Agricultural Engineerıng and Natural Resources, 2017 February 16-17, pp. 25-29, Tehran.
  • Aktar S, Quddus MA, Hossain MA, Parvin S, Sultana MN, (2019). Effect of integrated nutrient management on the yield, yield attributes and protein content of lentil. Bangladesh Journal of Agricultural Research 44(3), 525-536.
  • Al-Antary TM, Thalji TA, (2017). Biological factors affecting seeds of lentil cultivars stored for planting in Jordan with Emphasis on grain legumes beetles and weevils. Advances in Environmental Biology 13(1), 44-51.
  • GAP Uluslararası Tarımsal Araştırma ve Eğitim Merkezi (GAPUTAEM), (2019). Register form of cv. Fırat-87 [cited 2019 July 24] Available from: https://arastirma.tarimorman.gov.tr/gaputaem.
  • Arancon NQ, Edwards CA, Bierman P, Welch C, Metzger JD, (2004). Influences of vermicompost applications to strawberries: Part 1. effects on growth and yield. Bioresource Technology 93(2), 145–153.
  • Biçer BT, (2014). Some agronomic studies in Chickpea (Cicer arietinum L.) and lentil (Lens culinaris Medik). Türk Tarım ve Doğa Bilimleri Dergisi 1(1), 42-51.
  • Cavender N, Atiyeh RM, Knee M, (2003). Vermicompost stimulates mycorrhizal colonization of roots of Sorghum bicolor at the expense of plant growth. Pedobiol 47, 85-89.
  • Ceritoglu M, Şahin S, Erman M, (2018). Effects of vermicompost on plant growth and soil structure. Selcuk Journal of Agriculture and Food Sciences 32(3), 607-615.
  • Choudhury DR, Tarafdar S, Das M, Kundagrami S, (2012). Screening lentil (Lens culinaris Medik.) germplasms for heat tolerance. Trends in Bioscience 5(2), 143-146.
  • Dona WHG, Schoenau JJ, King T, (2020). Effect of starter fertilizer in seed-row on emergence, biomass and nutrient uptake by six pulse crops grown under controlled environment conditions. Journal of Plant Nutrition 43(6), 879-895.
  • Erman M, Tepe I, Bükün B, Yergin R, Taşkesen M, (2008). Critical period of weed control in winter lentil under non-irrigated conditions in Turkey. African Journal of Agricultural Research 3(8), 523-530.
  • Erskine W, EL Ashkar F, (1993). Rainfall and temperature effects on lentil (Lens culinaris) seed yield in Mediterranean environments. Journal of Agricultural Science 121, 347-354.
  • Erskine W, Sarker A, Kumar S, (2018). Developing improved varieties of lentil. In: Achieving sustainable cultivation of grain legumes (Ed. By S. Sivasankar), pp. 19-50, Burleigh Dodds Science Publishing, London.
  • Federal Ministry of Agriculture and Natural Resources (FMANR), (1990). Literature on soil fertility ınvestigation in Nigeria. Federal Ministry of Agriculture and Natural Resources, pp. 40, Lagos.
  • FAO, (2019). Lentil production on the World. [cited 2018 Sep. 20] Available from http://www.faostat.fao.org/beta/en/#data/OA >
  • Ghanem ME, Marrou H, Biradar C, Sinclair TR, (2015). Production potential of lentil (Lens culinaris Medik.) in East Africa. Agricultural Systems 137, 24-38.
  • Hanc A, Vasak F, (2015). Processing separated digestate by vermicomposting technology using earthworms of the genus Eisenia. International Journal of Environmental Science and Technology 12, 1183-1190.
  • Hosseinzadeh SR, Ahmadpour R, (2018). Evaluation of vermicompost fertilizer application on growth, nutrient uptake and photosynthetic pigments of lentil (Lens culinaris Medik.) under moisture deficiency conditions. Journal of Plant Nutrition 41(10), 1276-1284.
  • Huerta E, Vidal O, Jarquin A, Geissen V, Gomez R, (2010). Effect of vermicompost on the growth and production of amashito pepper, interactions with earthworms and rhizobacteria Compost Science and Utilization 18(4), 282-288.
  • Joseph PV, (2019). Efficacy of Different Substrates on Vermicompost Production. In: A Biochemical Analysis, Organic Fertilizers - History, Production and Applications (Ed. by M, Larramendy, S, Soloneski) IntechOpen: DOI: 10.5772/intechopen.86187.
  • Kahriman A, Temel HY, Aydoğan A., Tanyolaç MB, (2015). Major quantitative trait loci for flowering time in lentil. Turkish Journal of Agriculture and Forestry 39, 588-595.
  • Khan VM, Ahamad A, Yadav BL, Irfan M, (2017). Effect of Vermicompost and Biofertilizers on Yield Attributes and Nutrient Content and it’s their Uptake of Cowpea [Vigna unguiculata (L.)Walp.]. International Journal of Current Microbiology and Applied Science 6(6), 1045-1050.
  • Khatun S, Mondal MMA, Khalil MI, Mollah MMI, Kamruzzaman M, (2016). Impact of Morpho-physiological traits on seed yield of lentil (Lens culinaris Medik.). International Journal of Agriculture Innovations and Research 5(1), 168-172.
  • Korkmaz S, Goksuluk D, Zararsiz G, 2014. mvn: An R package for assessing multivariate normality. The R Journal 6(2), 151-162.
  • Kraska P, Andruszczak S, Kwiecinska-Poppe E, Staniak M, Rozylo K, Rusecki H, 2020. Supporting crop and different row spacing as factors influencing weed infestation in lentil crop and seed yield under organic farming conditions. Agronomy 10(9), 1-13.
  • Lazcano C, Gomez-Brandon M, Revilla P, Dominguez J, (2013). Short-term effects of organic and inorganic fertilizers on soil microbial community structure and function. Biology and Fertility of Soil 49, 723-733.
  • Mangiafico SS, (2016). Summary and analysis of extension program evaluation in R (version 1.18.1). New Brunswick: Rutgers Cooperative Extension.
  • Materne M, Siddique KHM, (2009). Agroecology and Crop Adaptation (Ed. by W, Erskine, F, Muehlbauer) pp. 48-61, CABI Press, USA.
  • Nee G, Xiang Y, Soppe WJJ, (2017). The release of dormancy, a wake-up call for seeds to germinate. Science Direct 35, 8-14.
  • Nobile CM, Bravin MN, Becquer T, Paillat, JM, (2020). Phosphorus sorption and availability in an andosol after a decade of organic or mineral fertilizer applications: Importance of pH and organic carbon modifications in soil as compared to phosphorus accumulation. Science Direct 239, 124709.
  • Ouji A, Mouelhi M, (2017). Influence of sowing dates on yield and yield components of lentil under semi-arid region of Tunisia. Journal of New Science 38(2), 2077-2082.
  • Rupani PF, Embrandiri A, Ibrahim MH, Ghole V, Lee CT, Abbaspour M, (2018). Effects of different vermicompost extracts of palm oil mill effluent and palm-pressed fiber mixture on seed germination of mung bean and its relative toxicity. Environmental Science and Pollution Research 25(36), 35805-35810.
  • Saket S, Singh SB, Namdeo KN, Parihar SS, (2014). Effect of organic and inorganic fertilizer on yield, quality and nutrients uptake of lentil. Annals of Plant and Soil Research 16(3), 238-241.
  • Sarker A, Sharma B, (2009). The Lentil: Botany, Production and Uses. CABI Press, USA.
  • Saxena MC, (2009). Plant morphology, anatomy and growth habit. In: The lentil botany, production and uses (Ed. by W, Erskine, FJ, Muehlbauer, A, Sarker, B, Sharma), pp. 34-46, Forest Stewardship Council Press, Massachusetts.
  • Sen S, Ghosh M. Mazumdar D, Dalui S, (2016). Effect of sowing date and variety on phenology and yield of lentil during rabi season. Journal of Crop and Weed 12(1), 135-138.
  • Sharma RC, Banik P, (2014). Vermicompost and fertilizer application: effect on productivity and profitability of baby corn (Zea Mays L.) and soil health. Compost Science and Utilization 22, 83-92.
  • Singh G, Virk HK, Khanna V, (2017). Integrated nutrition management for high productivity and net returns in lentil (Lens culinaris M.). Journal of Applied and Natural Science 9(3), 1566-1572.
  • Slim SN, Saxena MC, Erskine W, (1993.) Adaptation of lentil to Mediterranean environment. I. Factors affecting yield under drought conditions. Cambridge University Press 29(1), 9-19.
  • Sözen Ö, Karadavut U, (2017). Determination of relationship between yield and yield components in some green lentil genotypes. Jornal of Central Research Institute for Field Crops 26(1), 104-110.
  • Vanave PB, Jadhav AH, Mane AV, Mahadik SG, Palshetkar MG, Bhave SG, (2019). Genetic variability studies in lentil (Lens culinaris Medic.) genotypes for seed yield and attributes. Electronic Journal of Plant Breeding 10(2), 685-691.
  • Welch SM, Dong Z, Roe JL, Das S, (2005). Flowering time control: gene network modeling and the link to quantitative genetics. Crop and Pasture Science 56(9), 919-936.
  • Wu H, Dong X, Liu H, (2018). Evaluating fluorescent dissolved organic matter released from wetland-plant derived biochar: Effects of extracting solutions. Chemosphere 212, 638-644.
  • Zhang F, Wang R, Yu W, Liang J, Liao X, (2020). Influence of a vermicompost application on the phosphorus transformation and microbial activity in a paddy soil. Soil and Water Research 15(1), 1-12.

Effect of Vermicompost Application at Different Sowing Dates on some Phenological, Agronomic and Yield Traits in Lentil

Year 2020, Volume: 15 Issue: 3, 158 - 166, 30.09.2019

Abstract

Grain legumes are the most produced crops in all but cereals for all over the World and lentil is one of the most substantial of them. Vermicompost can play an effective role in crop growth and also in reducing the harmful effects of various chemical fertilizers. Besides, vermicompost application has various positive effects on the chemical and physiological traits of soil in a short and long time. Also, appropriate sowing time and scheduled application of crop and environmental oriented nutrients are required by the plant for high-quality product and grain yield. This study was carried out to determine the effects of vermicompost on plant growth, seed yield and yield components depending on different sowing times. According to results, seedling emergence time (SET) and flowering time (FT) varied between 11.0-25.3 and 130.7-181.7, respectively. Plant height (PH), number of pods per plant (NP), number of seeds per pod (NS) and seed yield (SY) changed between 35.8-57.1 cm, 20.8-54.5 plant-1, 1.13-1.51 plant-1 and 922-2527 kg ha-1, respectively. Therefore, the most suitable sowing date for winter lentil was determined as of December 1st in the Siirt. Therefore, 250 kg da-1 vermicompost applied in December 1st is recommended to gain the highest seed yield. Accordingly, it is recommended that vermicompost might be used to reduce production costs and discontinue damage to the environment due to the utilize of chemical fertilizers.

References

  • Ahmadpour R, Hosseinzadeh SR, (2017). Effect of vermicompost fertilizer on morphological traits of lentil under water stress. In: Proceeding of the Internatıonal Conference on Agricultural Engineerıng and Natural Resources, 2017 February 16-17, pp. 25-29, Tehran.
  • Aktar S, Quddus MA, Hossain MA, Parvin S, Sultana MN, (2019). Effect of integrated nutrient management on the yield, yield attributes and protein content of lentil. Bangladesh Journal of Agricultural Research 44(3), 525-536.
  • Al-Antary TM, Thalji TA, (2017). Biological factors affecting seeds of lentil cultivars stored for planting in Jordan with Emphasis on grain legumes beetles and weevils. Advances in Environmental Biology 13(1), 44-51.
  • GAP Uluslararası Tarımsal Araştırma ve Eğitim Merkezi (GAPUTAEM), (2019). Register form of cv. Fırat-87 [cited 2019 July 24] Available from: https://arastirma.tarimorman.gov.tr/gaputaem.
  • Arancon NQ, Edwards CA, Bierman P, Welch C, Metzger JD, (2004). Influences of vermicompost applications to strawberries: Part 1. effects on growth and yield. Bioresource Technology 93(2), 145–153.
  • Biçer BT, (2014). Some agronomic studies in Chickpea (Cicer arietinum L.) and lentil (Lens culinaris Medik). Türk Tarım ve Doğa Bilimleri Dergisi 1(1), 42-51.
  • Cavender N, Atiyeh RM, Knee M, (2003). Vermicompost stimulates mycorrhizal colonization of roots of Sorghum bicolor at the expense of plant growth. Pedobiol 47, 85-89.
  • Ceritoglu M, Şahin S, Erman M, (2018). Effects of vermicompost on plant growth and soil structure. Selcuk Journal of Agriculture and Food Sciences 32(3), 607-615.
  • Choudhury DR, Tarafdar S, Das M, Kundagrami S, (2012). Screening lentil (Lens culinaris Medik.) germplasms for heat tolerance. Trends in Bioscience 5(2), 143-146.
  • Dona WHG, Schoenau JJ, King T, (2020). Effect of starter fertilizer in seed-row on emergence, biomass and nutrient uptake by six pulse crops grown under controlled environment conditions. Journal of Plant Nutrition 43(6), 879-895.
  • Erman M, Tepe I, Bükün B, Yergin R, Taşkesen M, (2008). Critical period of weed control in winter lentil under non-irrigated conditions in Turkey. African Journal of Agricultural Research 3(8), 523-530.
  • Erskine W, EL Ashkar F, (1993). Rainfall and temperature effects on lentil (Lens culinaris) seed yield in Mediterranean environments. Journal of Agricultural Science 121, 347-354.
  • Erskine W, Sarker A, Kumar S, (2018). Developing improved varieties of lentil. In: Achieving sustainable cultivation of grain legumes (Ed. By S. Sivasankar), pp. 19-50, Burleigh Dodds Science Publishing, London.
  • Federal Ministry of Agriculture and Natural Resources (FMANR), (1990). Literature on soil fertility ınvestigation in Nigeria. Federal Ministry of Agriculture and Natural Resources, pp. 40, Lagos.
  • FAO, (2019). Lentil production on the World. [cited 2018 Sep. 20] Available from http://www.faostat.fao.org/beta/en/#data/OA >
  • Ghanem ME, Marrou H, Biradar C, Sinclair TR, (2015). Production potential of lentil (Lens culinaris Medik.) in East Africa. Agricultural Systems 137, 24-38.
  • Hanc A, Vasak F, (2015). Processing separated digestate by vermicomposting technology using earthworms of the genus Eisenia. International Journal of Environmental Science and Technology 12, 1183-1190.
  • Hosseinzadeh SR, Ahmadpour R, (2018). Evaluation of vermicompost fertilizer application on growth, nutrient uptake and photosynthetic pigments of lentil (Lens culinaris Medik.) under moisture deficiency conditions. Journal of Plant Nutrition 41(10), 1276-1284.
  • Huerta E, Vidal O, Jarquin A, Geissen V, Gomez R, (2010). Effect of vermicompost on the growth and production of amashito pepper, interactions with earthworms and rhizobacteria Compost Science and Utilization 18(4), 282-288.
  • Joseph PV, (2019). Efficacy of Different Substrates on Vermicompost Production. In: A Biochemical Analysis, Organic Fertilizers - History, Production and Applications (Ed. by M, Larramendy, S, Soloneski) IntechOpen: DOI: 10.5772/intechopen.86187.
  • Kahriman A, Temel HY, Aydoğan A., Tanyolaç MB, (2015). Major quantitative trait loci for flowering time in lentil. Turkish Journal of Agriculture and Forestry 39, 588-595.
  • Khan VM, Ahamad A, Yadav BL, Irfan M, (2017). Effect of Vermicompost and Biofertilizers on Yield Attributes and Nutrient Content and it’s their Uptake of Cowpea [Vigna unguiculata (L.)Walp.]. International Journal of Current Microbiology and Applied Science 6(6), 1045-1050.
  • Khatun S, Mondal MMA, Khalil MI, Mollah MMI, Kamruzzaman M, (2016). Impact of Morpho-physiological traits on seed yield of lentil (Lens culinaris Medik.). International Journal of Agriculture Innovations and Research 5(1), 168-172.
  • Korkmaz S, Goksuluk D, Zararsiz G, 2014. mvn: An R package for assessing multivariate normality. The R Journal 6(2), 151-162.
  • Kraska P, Andruszczak S, Kwiecinska-Poppe E, Staniak M, Rozylo K, Rusecki H, 2020. Supporting crop and different row spacing as factors influencing weed infestation in lentil crop and seed yield under organic farming conditions. Agronomy 10(9), 1-13.
  • Lazcano C, Gomez-Brandon M, Revilla P, Dominguez J, (2013). Short-term effects of organic and inorganic fertilizers on soil microbial community structure and function. Biology and Fertility of Soil 49, 723-733.
  • Mangiafico SS, (2016). Summary and analysis of extension program evaluation in R (version 1.18.1). New Brunswick: Rutgers Cooperative Extension.
  • Materne M, Siddique KHM, (2009). Agroecology and Crop Adaptation (Ed. by W, Erskine, F, Muehlbauer) pp. 48-61, CABI Press, USA.
  • Nee G, Xiang Y, Soppe WJJ, (2017). The release of dormancy, a wake-up call for seeds to germinate. Science Direct 35, 8-14.
  • Nobile CM, Bravin MN, Becquer T, Paillat, JM, (2020). Phosphorus sorption and availability in an andosol after a decade of organic or mineral fertilizer applications: Importance of pH and organic carbon modifications in soil as compared to phosphorus accumulation. Science Direct 239, 124709.
  • Ouji A, Mouelhi M, (2017). Influence of sowing dates on yield and yield components of lentil under semi-arid region of Tunisia. Journal of New Science 38(2), 2077-2082.
  • Rupani PF, Embrandiri A, Ibrahim MH, Ghole V, Lee CT, Abbaspour M, (2018). Effects of different vermicompost extracts of palm oil mill effluent and palm-pressed fiber mixture on seed germination of mung bean and its relative toxicity. Environmental Science and Pollution Research 25(36), 35805-35810.
  • Saket S, Singh SB, Namdeo KN, Parihar SS, (2014). Effect of organic and inorganic fertilizer on yield, quality and nutrients uptake of lentil. Annals of Plant and Soil Research 16(3), 238-241.
  • Sarker A, Sharma B, (2009). The Lentil: Botany, Production and Uses. CABI Press, USA.
  • Saxena MC, (2009). Plant morphology, anatomy and growth habit. In: The lentil botany, production and uses (Ed. by W, Erskine, FJ, Muehlbauer, A, Sarker, B, Sharma), pp. 34-46, Forest Stewardship Council Press, Massachusetts.
  • Sen S, Ghosh M. Mazumdar D, Dalui S, (2016). Effect of sowing date and variety on phenology and yield of lentil during rabi season. Journal of Crop and Weed 12(1), 135-138.
  • Sharma RC, Banik P, (2014). Vermicompost and fertilizer application: effect on productivity and profitability of baby corn (Zea Mays L.) and soil health. Compost Science and Utilization 22, 83-92.
  • Singh G, Virk HK, Khanna V, (2017). Integrated nutrition management for high productivity and net returns in lentil (Lens culinaris M.). Journal of Applied and Natural Science 9(3), 1566-1572.
  • Slim SN, Saxena MC, Erskine W, (1993.) Adaptation of lentil to Mediterranean environment. I. Factors affecting yield under drought conditions. Cambridge University Press 29(1), 9-19.
  • Sözen Ö, Karadavut U, (2017). Determination of relationship between yield and yield components in some green lentil genotypes. Jornal of Central Research Institute for Field Crops 26(1), 104-110.
  • Vanave PB, Jadhav AH, Mane AV, Mahadik SG, Palshetkar MG, Bhave SG, (2019). Genetic variability studies in lentil (Lens culinaris Medic.) genotypes for seed yield and attributes. Electronic Journal of Plant Breeding 10(2), 685-691.
  • Welch SM, Dong Z, Roe JL, Das S, (2005). Flowering time control: gene network modeling and the link to quantitative genetics. Crop and Pasture Science 56(9), 919-936.
  • Wu H, Dong X, Liu H, (2018). Evaluating fluorescent dissolved organic matter released from wetland-plant derived biochar: Effects of extracting solutions. Chemosphere 212, 638-644.
  • Zhang F, Wang R, Yu W, Liang J, Liao X, (2020). Influence of a vermicompost application on the phosphorus transformation and microbial activity in a paddy soil. Soil and Water Research 15(1), 1-12.
There are 44 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Articles
Authors

Mustafa Ceritoğlu

Murat Erman 0000-0002-1435-1982

Publication Date September 30, 2019
Acceptance Date August 14, 2020
Published in Issue Year 2020 Volume: 15 Issue: 3

Cite

APA Ceritoğlu, M., & Erman, M. (2019). Effect of Vermicompost Application at Different Sowing Dates on some Phenological, Agronomic and Yield Traits in Lentil. Journal of International Environmental Application and Science, 15(3), 158-166.
AMA Ceritoğlu M, Erman M. Effect of Vermicompost Application at Different Sowing Dates on some Phenological, Agronomic and Yield Traits in Lentil. J. Int. Environmental Application & Science. September 2019;15(3):158-166.
Chicago Ceritoğlu, Mustafa, and Murat Erman. “Effect of Vermicompost Application at Different Sowing Dates on Some Phenological, Agronomic and Yield Traits in Lentil”. Journal of International Environmental Application and Science 15, no. 3 (September 2019): 158-66.
EndNote Ceritoğlu M, Erman M (September 1, 2019) Effect of Vermicompost Application at Different Sowing Dates on some Phenological, Agronomic and Yield Traits in Lentil. Journal of International Environmental Application and Science 15 3 158–166.
IEEE M. Ceritoğlu and M. Erman, “Effect of Vermicompost Application at Different Sowing Dates on some Phenological, Agronomic and Yield Traits in Lentil”, J. Int. Environmental Application & Science, vol. 15, no. 3, pp. 158–166, 2019.
ISNAD Ceritoğlu, Mustafa - Erman, Murat. “Effect of Vermicompost Application at Different Sowing Dates on Some Phenological, Agronomic and Yield Traits in Lentil”. Journal of International Environmental Application and Science 15/3 (September 2019), 158-166.
JAMA Ceritoğlu M, Erman M. Effect of Vermicompost Application at Different Sowing Dates on some Phenological, Agronomic and Yield Traits in Lentil. J. Int. Environmental Application & Science. 2019;15:158–166.
MLA Ceritoğlu, Mustafa and Murat Erman. “Effect of Vermicompost Application at Different Sowing Dates on Some Phenological, Agronomic and Yield Traits in Lentil”. Journal of International Environmental Application and Science, vol. 15, no. 3, 2019, pp. 158-66.
Vancouver Ceritoğlu M, Erman M. Effect of Vermicompost Application at Different Sowing Dates on some Phenological, Agronomic and Yield Traits in Lentil. J. Int. Environmental Application & Science. 2019;15(3):158-66.

“Journal of International Environmental Application and Science”