Comparison of Drip‐ and Furrow‐Irrigated red Pepper Yield, Yield Components, Quality and net Profit Generation

Sezen, S. Metin; Yazar, Attila; Şengül, Haydar; Baytorun, Nafi; Daşgan, Yıldız; Akyıldız, Asiye; Tekin, Servet; Önder, Derya; Ağçam, Erdal; Akhoundnejad, Yelderem; Güğercin, Özkan

doi:10.1002/ird.1915

Cited by 22 publications

(16 citation statements)

References 20 publications

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“…Moreover, SMC in treatment ØB fell 5 times below treshhold (80% of FC), and due to soil water stress during mass fructification resulted in lower yield compared with drip fertigation treatments. Also, the results from present investigation correspond with those of Sezen et al (2015), where drip irrigated pepper was compared with furrow and Tanaskovik et al (2016), where drip fertigated tomato was compared with banded and furrow irrigated. For high pepper yields, an adequate water supply (Kirnak et al, 2016) and relatively moist soils are required during the total growing 528 period (Shao et al, 2010;Sezen et al, 2014).…”

Section: Resultssupporting

confidence: 83%

“…Furthermore, pepper is among the most sensitive horticultural plants to water deficit stress (Delfine et al, 2002;Ferrara et al, 2011). Such sensitivity was reported in some studies on the fresh and dry matter yield reductions as affected by different irrigation techniques and regime (Antony and Singandhupe, 2004;Sezen et al, 2006;González-Dugo et al, 2007;Candido et al, 2009;Kurunc et al, 2011;Aladenola and Madramootoo, 2014;Sezen et al, 2014;Sezen et al, 2015;Kuşçu et al, 2016). Also, nitrogen is another limiting factor along with water deficit in arid and semi-arid regions (Cetin and Akinci, 2015).…”

Section: Introductionmentioning

confidence: 91%

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Nitrogen Fertilizer Use Efficiency of Pepper as Affected by Irrigation and Fertilization Regime

Tanaskovik

Cukaliev

Kanwar

et al. 2016

Not Bot Horti Agrobo

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The pepper producers in the Republic of Macedonia have used drip irrigation systems to increase yield in recent years, but more research is still needed, related to irrigation scheduling and precise requirement of nitrogen fertilizer to maximise pepper yield. Therefore, a two year experiment was conducted in a plastic house to determine the nitrogen fertilizer use efficiency (NFUE) and yield potential of pruned pepper as affected by irrigation and fertilization regime. Four experimental treatments were applied in this study. Three of the treatments were drip fertigated (DF 1 , DF 2 , DF 3 ), while the fourth treatment was furrow irrigated with conventional fertilization (Ø B ). The labelled urea with 1% concentration of a stable isotope of nitrogen ( 15 N) was applied for determination of NFUE. The results of this study clearly showed that increased NFUE and pepper yield depend on irrigation and fertilization regime. Namely, NFUE was significantly increased with the application of nitrogen fertilizer through drip irrigation system as compared to conventional fertilization with furrow irrigation. Also, drip fertigation frequency positively affects percentage increase of NFUE. Furthermore, our results showed that drip fertigation treatments resulted in significantly higher pepper yields in comparison to conventional fertilization. Also, drip fertigation frequency at four and two days (DF 2 and DF 1 ) resulted in higher yields when compared with drip fertigation scheduled by using tensiometers (DF 3 ). Generally, to reach acceptable pepper yield with high NFUE, we recommend drip fertigation with a frequency of two to four days combined with two main shoots of pruned pepper in order to increase farmer's income and to minimize the environmental impact.

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Section: Resultssupporting

confidence: 83%

Section: Introductionmentioning

confidence: 91%

Nitrogen Fertilizer Use Efficiency of Pepper as Affected by Irrigation and Fertilization Regime

Tanaskovik

Cukaliev

Kanwar

et al. 2016

Not Bot Horti Agrobo

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“…Kong et al (2012), through drip irrigation determined WP values between 7.76 kg m -3 and 10.71 kg m -3 in bell pepper. Sezen et al (2015), reports of WP of 6.9 kg m -3 and IWP of 5.7 kg m -3 by applying irrigation water of 570.4 mm for the whole growing season at intervals of 3 to 6 days. Guang-Cheng et al (2010), determined the WP and IWP hot pepper in greenhouses values oscillate between 6.7 to 10.4 kg m -3 and 6.3 to 10.6 kg m-3, respectively.…”

Section: Resultsmentioning

confidence: 99%

“…In summary, highest quality fruit (increased weight and reduced dry matter and sunscald incidence) was obtained under shade. Sezen et al (2015), reported increased fruit yield to augmented fruit number In addition, a uniform supply of water in the soil throughout the growing season is needed to prevent poor fruit size and shape and to improve yield. Rylski and Spigelman (1986), reported changes in plant development due to the shading affected.…”

Section: Resultsmentioning

confidence: 99%

Supplemental irrigation levels in bell pepper under shade mesh and in open-field: Crop coefficient, yield, fruit quality and water productivity

PadrÃ3n¹,

Guedes²,

Swarowsky³

et al. 2015

Afr. J. Agric. Res.

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This study aims to evaluate the effects of supplemental irrigation in bell pepper crop under shade mesh and in open-field to improve management of water resources. The experimental design was a randomized complete block with four replications and ten treatments in factorial arrangement (five irrigation levels combined with two shade levels). Irrigation treatments were 0.25, 0.50, 0.75 and 1.0 rate of crop evapotranspiration and the control (no supplemental irrigation). Shading treatments were 0 and 50% reduction of photosynthetically active radiation, compared to open field conditions. Crop coefficient was influenced by rainfall, especially during initial growth stage period when it was high and Kc values were 0.71, 1.17, and 0.92. Treatments under shade and open-field had no significant interaction effect, alike between the years of study. The yield in open-field and under shade mesh showed better performance in 0.75 and 0.50 of ETc, respectively. Maximum water productivity and irrigation water productivity was obtained in open-field and deficit irrigation plots. Under shade, highest fruit quality was obtained; heavier fruits, less dry matter, no sunscald and increasing value added to production. Comparing water consumption in open-field and shading, it can be obtained up to 14 to 25% water saving, significantly improving yield and fruit quality.

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“…The importance of regular and appropriate supply of water during fruit development stages was highlighted earlier by Subramanian et al (1997), Panigrahi et al (2012) and Ghosh & Pal (2016). Further, Sezen et al (2015) also reported a gradual increases in yield with increased level of irrigation, while, Kumar et al (2013) reported a significant reduction in the number of fruits and fruit yield with highest irrigation level. At highest irrigation level (1.0V), the number of fruits and fruit weight was reduced.…”

Section: Yield Parametersmentioning

confidence: 96%

INFLUENCE OF DIFFERENT LEVEL OF WATER AND FERTILIZER APPLICATION THROUGH DRIP SYSTEM ON GROWTH AND YIELD OF KINNOW MANDARIN (Citrus reticulata BLANCO)

Vijaya¹,

Godara²,

Singh³

et al. 2017

JEBAS

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A field experiment was conducted at fruit orchard, Department of Horticulture, CCS HAU, Hisar to standardize the optimum level of water and NPK fertilizers through drip system for the sustained production of Kinnow mandarin under semi-arid condition of Haryana. The experiment was designed in factorial RBD with three replications and consisted of twelve treatment combinations, involving of three drip irrigation regimes (1.0, 0.8 and 0.6 volume of water) and four RDF levels of NPK (120%, 100%, 80% and 60% RDF). Significantly highest gain in plant growth parameters viz., plant height (48.8 cm), stem girth (6.24 cm) and plant spread (40.1 cm) was observed with the combined application of drip irrigation at 1.0 volume of water and 120% RDF through fertigation, whereas, highest number of fruits (515.9) and yield per hectare (258.7 quintals) was registered with the interaction effect of 0.8 volume of water and 80% RDF through drip irrigation.

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Comparison of Drip‐ and Furrow‐Irrigated red Pepper Yield, Yield Components, Quality and net Profit Generation

Cited by 22 publications

References 20 publications

Nitrogen Fertilizer Use Efficiency of Pepper as Affected by Irrigation and Fertilization Regime

Nitrogen Fertilizer Use Efficiency of Pepper as Affected by Irrigation and Fertilization Regime

Supplemental irrigation levels in bell pepper under shade mesh and in open-field: Crop coefficient, yield, fruit quality and water productivity

INFLUENCE OF DIFFERENT LEVEL OF WATER AND FERTILIZER APPLICATION THROUGH DRIP SYSTEM ON GROWTH AND YIELD OF KINNOW MANDARIN (Citrus reticulata BLANCO)

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