Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:17
  • preuzimanja u poslednjih 30 dana:8

Sadržaj

članak: 1 od 3  
Back povratak na rezultate
2021, vol. 26, br. 51, str. 69-76
Irrigation scheduling strategies for pepper based on evaporation and reference evapotranspiration
(naslov ne postoji na srpskom)
aUniverzitet u Novom Sadu, Poljoprivredni fakultet
bNaučni institut za ratarstvo i povrtarstvo, Novi Sad
cUniverzitet u Prištini sa privremenim sedištem u Kosovskoj Mitrovici, Poljoprivredni fakultet, Lešak

e-adresaksenija@polj.uns.ac.rs
Projekat:
Ministarstvo prosvete, nauke i tehnološkog razvoja Republike Srbije (institucija: Univerzitet u Novom Sadu, Poljoprivredni fakultet) (MPNTR - 451-03-68/2020-14/200117)

Ključne reči: paprika; navodnjavanje; prinos; produktivnost utrošene vode; evapotranspiracija
Sažetak
Navodnjavanje paprike sistemom kap po kap obavljeno je u Institutu za ratarstvo i povrtarstvo na oglednom polju Rimski Šančevi (Novi Sad) 2019. godine. Vreme zalivanja je određivano vodnim bilansom. Dve metode su korišćene za obračun dnevnog utroška vode na evapotranspiraciju paprike (ETd): referentna evapotranspiracija (ETo) i evaporacija sa slobodne vodene površine (Eo). Koeficijenti kulture (kc) i koeficijenti korekcije (k) korišćeni su za pretvaranje ETo i Eo vrednosti u ETd. Vrednosti kc i k bile su 0,3-0,4; 0,6-0.7; 0,9-1,1; 0,8-0,9 odnosno 0,4; 0,7; 1,0 i 0,8 za početak vegetacije, intenzivni porast, centralni deo vegetacije i kraj vegetacije. ETo je računata postupkom Hargrivsa (Hargreaves). Eo vrednosti su merene evaporimetrom klase A, postavljenim na meteorološkoj stanici u neposrednoj blizini ogledne parcele. Navodnjavanje je obavljano kada je lakopristupačna voda u sloju zemljišta do 30 cm bila utrošena od strane biljaka. Razlike u prinosu (Y) i produktivnosti utrošene vode navodnjavanjem (IWUE) korišćenjem Eo (42,58 t ha-1, 15,20 kg m-3) i ETo (40,78 t ha-1, 14,56 kg m-3) nisu bile statistički značajne. Vrednosti evapotranspiracije u periodu vegetacije paprike bile su 364,2 mm odnosno 337,3 mm na varijantama obračuna Eo i ETo. Činjenica da nisu utvrđene statistički značajne razlike u vrednostima Y i IWUE ukazuje da se obe metode mogu koristiti u obračunu ETd u realizaciji racionalnog zalivnog režima paprike u klimatskim uslovima Vojvodine. Međutim, prednost zbog dostupnosti podataka ipak treba dati postupku ETo.
Reference
Allen, R.G., Pereira, L.S., Raes, D., Smith, M. (1998) Crop evapotranspiration: Guidelines for computing crop water requirements. u: Irrigation and Drainage paper 56, Rome Italy: FAO, 300-300
Antony, E., Singandhupe, R.B. (2004) Impact of drip and surface irrigation on growth, yield and WUE of capsicum (Capsicum annum L.). Agricultural Water Management, 65(2), 121-132
Arya, C.K., Purohit, R.C., Dashora, L.K., Singh, P.K., Mahesh, K. (2017) Estimation of irrigation water requirement of drip irrigated bell pepper (Capsicum annuum l. var. Grossum) in Jhalawar District of Rajasthan. Chemical Science Review and Letters, 6(21), 225-230
Bos, M.G. (1985) Summary of ICID definitions of irrigation efficiency. ICID Bulletin, 34, 28-31
Bošnjak, Đ. (1983) Evaporation from free water surface as a base for irrigation scheduling and its relationship to ETP of maize and soybean. Journal for Scientific Agricultural Research, 44(155), 323-344
Bošnjak, Đ. (2001) The problems of drought in the Vojvodina province and drought control measures. Zbornik radova Instituta za ratarstvo i povrtarstvo, br. 35, str. 391-401
Bošnjak, Đ., Gvozdenović, Đ., Milić, S. (2005) Interval as basis for pepper irrigation scheduling. Zbornik radova Instituta za ratarstvo i povrtarstvo, br. 41, str. 113-118
Bryla, D.R., Trout, T.J., Ayars, J.E. (2010) Weighing lysimeters for developing crop coefficients and efficient irrigation practices for Vegetable Crops. HortScience, 45(11), 1597-1604
Delfine, S., Alvino, A., Loreto, F., Centritto, M., Santarelli, G. (2000) Effects of water stress on the yield and photosynthesis of field-grown sweet pepper (Capsicum annuum L). Acta Horticulturae, 537(537), 223-229
Demirel, K., Genç, L., Saçan, M. (2012) Effects of different irrigation levels on pepper (Capsicum annuum) yield and quality parameters in semi-arid conditions. Journal of Tekirdag Agricultural Faculty, 9(2), 7-15
Dorji, K., Behboudian, M.H., Zegbe-Domínguez, J.A. (2005) Water relations, growth, yield, and fruit quality of hot pepper under deficit irrigation and partial rootzone drying. Scientia Horticulturae, 104(2), 137-149
Echer, M.M., Fernandes, M.C.A., Ribeiro, R.L.D., Peracchi, A.L. (2002) Evaluation of Capsicum genotypes for resistance to the broad mite. Horticultura Brasileira, 20(2), 217-221
Ertek, A., Sensoy, S., Gedik, I., Kucukyumuk, C. (2007) Irrigation scheduling for green pepper grown in field conditions by using class-A pan evaporation values. American-Eurasian Journal of Agricultural & Environmental Sciences, 2(4), 349-358
Ertek, A., Bolat, S. (2016) Growth and yield of pepper (Capsicum Annuum L.) under root zone restriction. Agricultural Research & Technology: Open Access Journal, 2(5), 555-599
FAOSTAT (2016) Faostat database search results. http://www.fao.org May 21, 2020
Ferrara, A., Lovelli, S., di Tommaso, T., Perniola, M. (2010) Flowering, growth and fruit setting in greenhouse bell pepper under water stress. Journal of Agronomy, 10(1), 12-19
Hargreaves, G.H., Samani, Z.A. (1985) Reference crop evapotranspiration from temperature. Applied Engineering in Agriculture, 1, 96-99
Howell, A. (2001) Enhancing water use efficiency in irrigated agriculture. Agronomy Journal, 93(2), 281-289
Kara, O.H., Yildirim, M. (2015) Water and radiation use efficiencies of pepper (Capsicum annuum L. cv. Carliston). Scholars Journal of Agriculture and Veterinary Sciences, 2(2A), 87-93
Liu, H., Yang, H., Zheng, J., Jia, D., Wang, J., Li, Y., Huang, G. (2012) Irrigation scheduling strategies based on soil matric potential on yield and fruit quality of mulched-drip irrigated chili pepper in Northwest China. Agricultural Water Management, 115, 232-241
Molden, D., Oweis, T., Steduto, P., Bindraban, P., Hanjra, M.A., Kijne, J. (2010) Improving agricultural water productivity: Between optimism and caution. Agricultural Water Management, 97(4), 528-535
Padrón, R.A.R., Guedes, C.U.J., Swarowsky, A., Nogueira, U.C., Cerquera, R.R., Díaz-Pérez, C.J. (2015) Supplemental irrigation levels in bell pepper under shade mesh and in open-field: Crop coefficient, yield, fruit quality and water productivity. African Journal of Agricultural Research, 10(44), 4117-4125
Pejic, B., Mačkić, K., Koza, M., Jančić-Tovjanin, M., Gajić, B., Aksić, M. (2019) The effect of different irrigation scheduling regimes on tomato (Lycopersicon esculentum Mill.) yield under drip irrigation system. Annals of Agronomy, 43(1), 17-25
Pejić, B., Maheshwari, B.L., Šeremešić, S., Stričević, R., Pacureanu-Joita, M., Rajić, M., Ćupina, B. (2011) Water-yield relations of maize (Zea mays L.) in temperate climatic conditions. Maydica, 56(4), 315-323
Pejić, B., Gvozdanović-Varga, J., Milić, S., Ignjatović-Ćupina, A., Krstić, Đ., Ćupina, B. (2011) Effect of irrigation schedules on yield and water use of onion (Allium cepa L.). African Journal of Biotechnology, 10, 2644-2652
Pejić, B., Mačkić, K., Milić, S., Maksimović, L., Bajić, I., Jančić-Tovjanin, M. (2018) Effect of surface and subsurface drip irrigation on yield and evapotranspiration of maize. Annals of Agronomy, 42(2), 1-8
Pejić, B. (1993) A comparative study of soybean irrigation scheduling according to soil moisture and water balance. Zbornik radova Instituta za ratarstvo i povrtarstvo, 21, 145-157
Pejić, B. (2000) Evapotranspiration and morphological characteristics of corn depending on the depth of soil wetting and their relatioships with yield. Novi Sad: Faculty of Agriculture, Doctoral Thesis
Pejić, B., Maksimović, L., Milić, S. (2007) Effect of irrigation on yield of corn hybrids from different maturity groups. Zemljište i biljka, vol. 56, br. 2, str. 59-66
Pejić, B., Mačkić, K., Pavković, S., Ljevnaić-Mašić, B., Aksić, M., Gvozdanović-Varga, J. (2016) Water-yield relations of drip irrigated watermelon in temperate climatic conditions. Savremena poljoprivreda, vol. 65, br. 1-2, str. 53-59
Sahin, U., Kuslu, Y., Kiziloglu, F.M. (2015) Response of cucumbers to different irrigation regimes applied trough drip-irrigation system. Journal of Animal and Plant Sciences, 25(1), 198-205
Sezen, M.S., Yazar, A., Eker, S. (2006) Effect of drip irrigation regimes on yield and quality of field grown bell pepper. Agricultural Water Management, 81(1-2), 115-131
Sezen, S.M., Yazar, A., Tekin, S., Eker, S., Kapur, B. (2011) Yield and quality response of drip-irrigated pepper under Mediterranean climatic conditions to various water regimes. African Journal of Biotechnology, 10(8), 1329-1339
Showemimo, F.A., Olarewaju, J.D. (2006) Drought tolerance indices in sweet pepper (Capsicum annuum L.). International Journal of Plant Breeding and Genetics, 1(1), 29-33
Smajstrla, A.G., Locascio, S.J., Weingartner, D.P., Hensel, D.R. (2000) Subsurface drip irrigation for water table control and potato production. Applied Engineering in Agriculture, 16, 225-229
Stanhill, G. (1986) Water use efficiency. Advances in Agronomy, 39, 53-85
Tanaskovik, V., Chukaliev, O., Kanwar, S.R., Heng, L.K., Markoski, M., Spalevic, V. (2016) Nitrogen fertilizer use efficiency of pepper as affected by irrigation and fertilization regime. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 44(2), 525-532
Tanner, C.B., Sinclair, T.R. (1983) Efficient water use in crop production: Research or re-search?. u: Taylor H.M., et al. [ur.] Limitations to Efficient Water Use in Crop Production, Madison, WI: ASA, 1-27
Thampi, P.S.S. (2004) A glimpse of the world trade in Capsicum. u: De A.K. [ur.] Capsicum: the genus Capsicum, London, UK: CRC Press Inc
Trivikrama, J.R., Muralee, K.G., Hema, H.V.K., Sumathi, P. (2018) Water requirement and deficit irrigation of capsicum crop using fixed irrigation intervals to crop stage under poly house. International Journal of Current Microbiology and Applied Sciences, 7(07), 2533-2538
Viets, F.G. (1962) Fertilizers and the efficient use of water. Advances in Agronomy, 14, 223-264
Vučić, N. (1976) Irrigation of agricultural crops. Novi Sad: Faculty of Agriculture
Wang, Z., Zerihun, D., Feyen, J. (1996) General irrigation efficiency for field water management. Agricultural Water Management, 30(2), 123-132
 

O članku

jezik rada: engleski
vrsta rada: neklasifikovan
DOI: 10.5937/AASer2151069P
primljen: 23.10.2020.
prihvaćen: 11.06.2021.
objavljen u SCIndeksu: 30.07.2021.
Creative Commons License 4.0