Effect of biofertilizers, seaweed extract and inorganic fertilizer on growth and yield of lettuce (Lactuca sativa var. longifolia L.)

Yıl 2022, Cilt: 26 Sayı: 1, 60 - 71, 25.03.2022

Azad Abdullah Mohammed Selçuk Söylemez Taha Zubair Sarhan

https://doi.org/10.29050/harranziraat.1016268

Cited By: 2

Öz

Due to the excessive use of inorganic fertilizers, the structure of the soil is deteriorated, and the product quality is adversely affected. For this reason, the use of environmentally friendly organic fertilizers in production has increased in recent years. A field experiment was conducted in a plastic greenhouse in the Research Center Field at General Directorate of Agriculture, Dohuk Governorate, Northern region of Iraq during autumn season of 2020 to examine the effect of soil application of the biofertilizer (Corabac) with three levels (0, 5 and 10 g L-1) and foliar spraying with the seaweed (algal extract) at three concentrations (0, 4 and 8 g L-1) and the inorganic fertilizer at two concentrations (0 and 1 g L-1 (N:P:K 10:10:10)) compared with control (without treatment) on growth and yield of lettuce crop (Lactuca sativa L.). The obtained data indicated that the application of the three fertilizers and their interactions significantly induced vegetative growth parameters like stem length and leaf number per plant but did not positively affected leaf area (cm2) and chlorophyll content (%). Head weight (kg), yield (kg m-2), and total yield (ton ha-1) were also notably increased due to soil addition of biofertilizer and foliar spraying of the algal extract and inorganic fertilizer as compared to the control. Biofertilizer, seaweed and inorganic fertilization affected the N, P and K content in lettuce leaves. For a sustainable production in greenhouse lettuce, it is possible to obtain higher head weight and therefore higher yield by using seaweed and biofertilizers, which are considered environmentally friendly.

Anahtar Kelimeler

Algae extract, Biofertilizer, Chemical fertilization, Organic fertilizer, Plant nutrition

Biyogübre, deniz yosunu ve inorganik gübrelerin marulda (Lactuca sativa var. longifolia L.) bitki gelişimi ve verimi üzerine etkisi

Öz

İnorganik gübrelerin aşırı kullanımı nedeniyle toprağın yapısı bozulmakta ve ürün kalitesi olumsuz etkilenmektedir. Bu nedenle üretimde çevre dostu organik gübrelerin kullanımı son yıllarda artış göstermiştir. Çalışma 2020 yılı sonbahar yetiştirme döneminde Irak'ın Kuzey Bölgesi, Dohuk Valiliği, Tarım Genel Müdürlüğü Araştırma Merkezi arazisinde bulunan plastik serada yürütülmüştür. Denemede topraktan uygulanan biyogübre (0 , 5 ve 10 g L-1) (Corabac) ile yapraktan uygulanan deniz yosunu (alg özü) (0, 4 ve 8 g L-1) ve inorganik gübrenin (0 ve 1 g L-1 (N:P: K 10:10:10)) marulda (Lactuca sativa L.) verim ve bazı büyüme parametreleri üzerine etkisini incelenmek amacıyla gerçekleştirilmiştir. Elde edilen veriler, üç gübrenin ve bunların interaksiyonlarının, baş ağırlığı, verim, gövde uzunluğu, yaprak sayısı gibi parametreleri önemli ölçüde arttırdığı, ancak yaprak alanı (cm2) ve klorofil içeriğini (%) azalttığını göstermiştir. Biyogübre, deniz yosunu ve inorganik gübreleme yapraklardaki N, P ve K içeriğini etkilemiştir. Sera marul üretiminde sürdürülebilir bir üretim için, çevreye dost olduğu düşünülen deniz yosunu ve biyogübre kullanılarak daha yüksek baş ağırlığı ve dolayısıyla daha yüksek verim elde edilmesi mümkündür.

Anahtar Kelimeler

Deniz yosunu, Biyogübre, Kimyasal gübreleme, Organic gübreleme, Bitki besleme

Kaynakça

• Abetz, P., & Young, C. (2009). The effect of seaweed extract sprays derived from Ascophyllum nodosum on lettuce and cauliflower crops. Botanica Marina, 26(10), 487-492.
• Ahmed, A.H., Mishriky, J.F., & Khalil, M. K. (2000). Reducing nitrate accumulation in lettuce (Lactuca sativa L.) plants by using different biofertilizers. ICEHM2000, Cairo University, (pp: 509-517), September, Egypt.
• Battacharyya, D., Babgohari, M. Z., Rathor, P., & Prithiviraj, B. (2015). Seaweed extracts as biostimulants in horticulture. Scientia Horticulturae, 196, 39-48.
• Bender Özenç, D., & Şen, O., 2017. Aşılı ve aşısız domates yetiştiriciliğinde sıvı yosun gübresi kullanımının verim ve beslenme üzerine etkileri. Türkiye Tarımsal Araştırmalar Dergisi, 4 (3), 21-258.
• Bhat, T. A., Ahmad, L., Ganai, M. A., & Khan, O. A. (2015). Nitrogen fixing bio fertilizers; mechanism and growth promotion: A Review. Journal of Pure and Applied Microbiology, 9(2), 1675-1690.
• Cevheri, C.İ., Yılmaz, A. & Beyyavaş, V. (2021). Harran Ovası koşullarında yetiştirilen bazı pamuk (Gossypium hirsutum L.) çeşitlerine uygulanan organik ve mikrobiyal gübrelerin verim ve verim öğelerine etkisi. Harran Tarım ve Gıda Bilimleri Dergisi, 25(1): 53-64. DOI:10.29050/harranziraat.737298.
• Chrysargyris A., Xylia P., Anastasiou M., Pantelides I., & Tzortzakis N. (2018). Effects of Ascophyllum nodosum seaweed extracts on lettuce growth, physiology and fresh-cut salad storage under potassium deficiency. J. Sci. Food Agric., 98, 5861–5872. doi: 10.1002/jsfa.9139.
• Crouch, I.J., Beckett, R.P., & Staden, J.V. (1990). Effect of seaweed concentrate on the growth and mineral nutrition of nutrient-stressed lettuce. Journal of Applied Phycology, 2, 269-272.
• Crouch, I.J., & Staden, J.V. (1992). Effect of seaweed concentrate on the establishment and yield of greenhouse tomato plants. Journal of Applied Phycology, 4, 291-296.
• Craigie J.S. (2011) Seaweed extract stimuli in plant science and agriculture. J Appl Phycol, 23, 371–393.
• Ekta, N., Shailaja, P., Pant, S. C., Sandeep, K., Pankaj, B., Bengia, M., & Nautiyal, B. P. (2017). Effect of organic manures and bio-fertilizers on growth, yield, quality and economics of broccoli (Brassica Oleracea l. Var. Italica Plenck) cv. green head under high-hill conditions of Uttarakhand. International Journal of Advanced Biological Research, 7(1), 96-100.
• Liriano González, R., Pérez Ramos, J., Pérez Hernández, Y., Placeres Espinosa, I., Rodríguez Jiménez, S. L., & Peña Alonso, D. (2019). Improvement of the agricultural productivity of lettuce and radish by using efficient microorganisms. Revista Facultad Nacional de Agronomía Medellín, 72(3), 8937-8943.
• Hanafy Ahmed, A. H., Mishriky, J. F., & Khalil, M. K. (2002). Reducing nitrate accumulation in lettuce (Lactuca sativa L.) plants by using different biofertilizers. Annals of Agricultural Science-Cairo-, 47(1), 27-42.
• Khan, W., Rayirath, U.P., Subramanian, S., Jithesh, M. N., Rayorath, P., Hodges, D. M., .& Prithiviraj, B. (2009). Seaweed extracts as biostimulants of plant growth and development. Journal of Plant Growth Regulation, 28(4), 386-399.
• Kiracı, S., Gönülal, E., & Padem, H. (2013). Mikrobiyal gübre ve bitki aktivatörü uygulamalarının organik havuç yetiştiriciliğinde kalite parametreleri üzerine etkisi. Süleyman Demirel Üniversitesi Ziraat Fakültesi Dergisi, 8 (2), 36-43.
• Lateef, S.M., Alamery, A. A., Alhassaany, M.H., Almosawy, A.N., & Almosawy, M.M. (2019). Role of bio fertilizers and phosphate levels on some growth and yield properties of broccoli (Brassica oleracea var. italica). Plant Archives, 19(2), 1564-1568.
• Masarirambi, M. T., Dlamini, P., Wahome, P. K., & Oseni, T. O. (2012). Effects of chicken manure on growth, yield and quality of lettuce (Lactuca sativa L.)‘Taina’under a lath house in a semi-arid sub-tropical environment. Agric. & Environ. Sci, 12(3), 399-406.
• Menamo, M., & Wolde, Z. (2013). Effect of Cyanobacteria application as biofertilizer on growth, yield and yield components of Romaine lettuce (Lactuca sativa L.) on soils of Ethiopia. American Scientific Research Journal for Engineering, Technology, and Sciences (ASRJETS) 4, (1), 50-58.
• Mohamed, M. H. M., & Zewail, R. M. Y. (2016). Partial and full substitution of chemical fertilizer by organic fertilizer in presence of bio fertilizer and seaweed extract and its influences on productivity and quality of head lettuce plants. Journal of Plant Production, 7(6), 545-552.
• Nemadodzi, L. E., Araya, H., Nkomo, M., Ngezimana, W., & Mudau, N. F. (2017). Nitrogen, phosphorus, and potassium effects on the physiology and biomass yield of baby spinach (Spinacia oleracea L.), Journal of Plant Nutrition, 40(14), 2033-2044, DOI: 10.1080/01904167.2017.1346121
• Saleem, K., & Ali, K. (2021). Response of two chickpea genotypes to different fertilizers composition and different application forms. ZJPAS, 33 (1), 120-130.
• Satekge, T. K., Mafeo, T. P., & Kena, M. A. (2016). Combined effect of effective microorganisms and seaweed concentrate Kelpak® on growth and yield of cabbage. Transylv. Rev, 24(8), 1511-1519.
• Shinde, A.A., Kadam, A.S., & Syed, S.J. (2018). Effect of biofertilizers on growth and yield of Spinach (Beta vulgaris L.). International Journal of Chemical Studies, 6(2), 524-527.
• Söylemez, S. (2021). The impact of different growth media and ammonium-nitrate ratio on yield and nitrate accumulation in Lettuce (Lactuca sativa var. longifolia). Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 49 (4): 1-14.
• Tarraf, Shahira A., Iman M. Talaat, Abo El-Khair B. El-Sayed, Laila K. Balbaa (2015). Influence of foliar application of algae extract and amino acids mixture on fenugreek plants in sandy and clay soils. Nusantara Bioscience, 7 (1): 33-37.
• Thirumaran, G., Arumugam, M., Arumugam, R., & Anantharaman, P. (2009). Effect of seaweed liquid fertilizer on growth and pigment concentration of Abelmoschus esculentus (1) medikos. American-Eurasian J. Agronomy 2(2), 57-66.
• Woodward, D. (2003). Soil and sustainability: Effective microorganisms as regenerative systems in earth healing. MSc. Dissertation. Brighton. Web http:// www. Livingsoil.co.uk/learning/soilsustain.html.