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Assessment of Yıeld and Fruıt Qualıty of Cucumber (Cucumis sativus) under Defıcıt Irrıgatıon in the Agro-Ecologıcal Tropıcal Zone

Yıl 2019, Cilt: 3 Sayı: 3, 137 - 141, 28.09.2019

Öz

This
study was carried out to determine the growth and yield performance of cucumber
to deficit irrigation. The research was carried out
in a screen house on the Teaching and Research Farm of Agricultural
Engineering Department, Federal University of Technology, Akure, Nigeria. The
experiment was a complete block design which comprised of four treatments and
four replicates. The treatments were: T1, T2, T3 and T4 irrigated at 100 % ET,
80 % ET, 60 % ET and 40 % ET respectively using drip irrigation. Soil and agronomic parameters were determined and results
were subjected to statistical analysis. The result showed that T1 (100 %) had
the highest plant height and the highest number of leaves of 107 cm and 15
respectively, T2 (80 %) produced the highest cucumber fruit yield of
1059.3 kg/ha with average length and average diameter of 18.33 cm and 5.87 cm
respectively while T4 (40 %) produced the lowest yield of 85.2 kg/ha with an
average fruit length and diameter of 8.4 cm and 2.86 cm respectively. Thus,
with 80 % water application, cucumber can produce the highest fruit yield and
water use efficiency

Kaynakça

  • 1. Huh, Y.C.; Solmaz, I.; Sari, N. Morphological characterization of Korean and TurkishWatermelon germplasm. In: Pitrat M., Cucurbitaceae; Proceedings of the IXth EUCARPIA meeting on genetics andbreeding of cucurbitaceae, INRA; Avignon, France. 2008, 399-406.
  • 2. Nweke I.A; Orji E.C; Ijearu S.I. The effect of Staking and Plant Spacing on the growth and yield of Cucumber (Cucumis Sativus L.). J. Env. Sci., Tox. and Food Technol. 2013, 3, 26-31
  • 3. Sahin U; Kuslu Y; Kiziloglu F. Response of Cucumbers to Different Irrigation Regimes Applied Through Drip-Irrigation System. J. of Ani. Plant. Sci. 2015, 25 198-205.
  • 4. Hashem, F.A.; Medany, M.A.; Abd El-Moniem; E.M.; Abdallah, M.M.F. Influence of greenhouse cover on potential evapotranspiration and cucumber water requirements. Fac. Agr. Ain Shams Univ. Ann. Agr. Sci. 2011, 56, 49-55.
  • 5. Şimşek, M.,T.; Tonkaz, M.; Kacıra, N.; ComlekcioğluandZ. Doğan. The effects of different irrigation regimes on cucumber (Cucumis sativus L.) yield and yield characteristics under open field conditions. Agr. Water Manage. 2005, 73,173-191.
  • 6. Zhang, H.X.; Chi, D.C.; Wang, Q.; Fang, J.; Fang, X.Y. Yield and quality response of cucumber to irrigation and nitrogen fertilization under sub surface drip irrigation in solar greenhouse. Agr. Sci. China. 2011, 10, 921-930.
  • 7. Alomran A.M.; Louki I.I. Yield response of cucumber to deficit irrigation in greenhouses. WIT Transactions on Ecology and the Environment, Conference paper, Water Res. Manage. 2011. 145, 17–524. DOI:10.2495/WRM110451
  • 8. Sabeena, S.; Rema, K.P.; Shyla, J. Irrigation Scheduling Of Salad Cucumber inside a Polyhouse Using Cropwat Model. Int. J. Eng. Sci.Com. 2016, 6, 3545-3548.
  • 9. Sahin, U.; Kuslu, Y.; Kiziloglu, F. Response of Cucumbers to Different Irrigation Regimes Applied Through Drip-Irrigation System. J. Ani. Plant. Sci. 2015, 25, 198-205.
  • 10. Eifediyi, E.K; Remison, S.U. Growth and yield of cucumber (Cucumis sativus L.) as influenced by farmyard manure and inorganic fertilizer. J. Plant Breed. Crop Sci. 2010, 2, 216-220.
  • 11. El-Noemani, A.A.; Aboamera, A.A.A.; Aboellil, O.M.; Dewedar. Growth, yield, quality and water use efficiency of pea plant as affected by evapotranspiration and sprinkler height. J. Agr. Res. 2009, 34,1445-1466
  • 12. Obi, C.M.; Nwankpa, A.P. Yield and Nutritional Enhancement in Cucumber through combination of poultry and NPK fertilizer. 2016 conference of the Nigerian Enviromenty Study Action Team (NEST). Held at federal University Ndufu- Alike Ikwo (FUNAI) Ebonyi State, 25-26 October, 2016.
  • 13. Sanni, K.O; Ewulo B.S.; Godonu K.G.; Animashaun M.O. Effects of Nutrients Sources on the Growth and Yield of Cucumber and on Soil Properties in Ikorodu Agro-Ecological Zone. Report and Opinion. 2015, 7, 24-32.
  • 14. Mamun-Hossain, S.A.; Wang, L.X.; Liu, H.S. Improved greenhouse cucumber production under deficit water and fertilization in Northern China. Int. J. Agr. Bio. Eng. 2018, 11, 58–64.
  • 15. Ayas, S.; Demirtaş, Ç. Deficit irrigation effects on cucumber (Cucumis sativus L. Maraton) yield in unheated greenhouse condition. J. Food Agr. Env. 2009, 7, 645-649.
  • 16. Alomran ,A.M.; Louki, I.I.; Aly, A.A.; Nadeem, M.E. Impact of deficit irrigation on soil salinity and cucumber yield under greenhouse condition in an arid environment. J. Agr. Sci. Tech. 2013, 15, 1247–1259.
  • 17. Wang, Z.; Liu, Z.; Zhang, Z.; Liu, X. Subsurface drip irrigation scheduling for cucumber (Cucumis sativus L.) grown in solar green house based on 20 cm standard pan evaporation in Northeast China. Sci. Hor. 2009, 123, 51–57.
Yıl 2019, Cilt: 3 Sayı: 3, 137 - 141, 28.09.2019

Öz

Kaynakça

  • 1. Huh, Y.C.; Solmaz, I.; Sari, N. Morphological characterization of Korean and TurkishWatermelon germplasm. In: Pitrat M., Cucurbitaceae; Proceedings of the IXth EUCARPIA meeting on genetics andbreeding of cucurbitaceae, INRA; Avignon, France. 2008, 399-406.
  • 2. Nweke I.A; Orji E.C; Ijearu S.I. The effect of Staking and Plant Spacing on the growth and yield of Cucumber (Cucumis Sativus L.). J. Env. Sci., Tox. and Food Technol. 2013, 3, 26-31
  • 3. Sahin U; Kuslu Y; Kiziloglu F. Response of Cucumbers to Different Irrigation Regimes Applied Through Drip-Irrigation System. J. of Ani. Plant. Sci. 2015, 25 198-205.
  • 4. Hashem, F.A.; Medany, M.A.; Abd El-Moniem; E.M.; Abdallah, M.M.F. Influence of greenhouse cover on potential evapotranspiration and cucumber water requirements. Fac. Agr. Ain Shams Univ. Ann. Agr. Sci. 2011, 56, 49-55.
  • 5. Şimşek, M.,T.; Tonkaz, M.; Kacıra, N.; ComlekcioğluandZ. Doğan. The effects of different irrigation regimes on cucumber (Cucumis sativus L.) yield and yield characteristics under open field conditions. Agr. Water Manage. 2005, 73,173-191.
  • 6. Zhang, H.X.; Chi, D.C.; Wang, Q.; Fang, J.; Fang, X.Y. Yield and quality response of cucumber to irrigation and nitrogen fertilization under sub surface drip irrigation in solar greenhouse. Agr. Sci. China. 2011, 10, 921-930.
  • 7. Alomran A.M.; Louki I.I. Yield response of cucumber to deficit irrigation in greenhouses. WIT Transactions on Ecology and the Environment, Conference paper, Water Res. Manage. 2011. 145, 17–524. DOI:10.2495/WRM110451
  • 8. Sabeena, S.; Rema, K.P.; Shyla, J. Irrigation Scheduling Of Salad Cucumber inside a Polyhouse Using Cropwat Model. Int. J. Eng. Sci.Com. 2016, 6, 3545-3548.
  • 9. Sahin, U.; Kuslu, Y.; Kiziloglu, F. Response of Cucumbers to Different Irrigation Regimes Applied Through Drip-Irrigation System. J. Ani. Plant. Sci. 2015, 25, 198-205.
  • 10. Eifediyi, E.K; Remison, S.U. Growth and yield of cucumber (Cucumis sativus L.) as influenced by farmyard manure and inorganic fertilizer. J. Plant Breed. Crop Sci. 2010, 2, 216-220.
  • 11. El-Noemani, A.A.; Aboamera, A.A.A.; Aboellil, O.M.; Dewedar. Growth, yield, quality and water use efficiency of pea plant as affected by evapotranspiration and sprinkler height. J. Agr. Res. 2009, 34,1445-1466
  • 12. Obi, C.M.; Nwankpa, A.P. Yield and Nutritional Enhancement in Cucumber through combination of poultry and NPK fertilizer. 2016 conference of the Nigerian Enviromenty Study Action Team (NEST). Held at federal University Ndufu- Alike Ikwo (FUNAI) Ebonyi State, 25-26 October, 2016.
  • 13. Sanni, K.O; Ewulo B.S.; Godonu K.G.; Animashaun M.O. Effects of Nutrients Sources on the Growth and Yield of Cucumber and on Soil Properties in Ikorodu Agro-Ecological Zone. Report and Opinion. 2015, 7, 24-32.
  • 14. Mamun-Hossain, S.A.; Wang, L.X.; Liu, H.S. Improved greenhouse cucumber production under deficit water and fertilization in Northern China. Int. J. Agr. Bio. Eng. 2018, 11, 58–64.
  • 15. Ayas, S.; Demirtaş, Ç. Deficit irrigation effects on cucumber (Cucumis sativus L. Maraton) yield in unheated greenhouse condition. J. Food Agr. Env. 2009, 7, 645-649.
  • 16. Alomran ,A.M.; Louki, I.I.; Aly, A.A.; Nadeem, M.E. Impact of deficit irrigation on soil salinity and cucumber yield under greenhouse condition in an arid environment. J. Agr. Sci. Tech. 2013, 15, 1247–1259.
  • 17. Wang, Z.; Liu, Z.; Zhang, Z.; Liu, X. Subsurface drip irrigation scheduling for cucumber (Cucumis sativus L.) grown in solar green house based on 20 cm standard pan evaporation in Northeast China. Sci. Hor. 2009, 123, 51–57.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Articles
Yazarlar

İfeoluwa Omotade 0000-0002-7263-2934

İfeoluwapo Babalola Bu kişi benim

Yayımlanma Tarihi 28 Eylül 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 3 Sayı: 3

Kaynak Göster

IEEE İ. Omotade ve İ. Babalola, “Assessment of Yıeld and Fruıt Qualıty of Cucumber (Cucumis sativus) under Defıcıt Irrıgatıon in the Agro-Ecologıcal Tropıcal Zone”, IJESA, c. 3, sy. 3, ss. 137–141, 2019.

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