Corn Yield Response to Different Irrigation Depths with Subsurface Drip Irrigation

The results of experimental researches on studying of features of formation of a water mode of soils, water consumption processes, and corn yield under different schemes of irrigation pipelines (IP) under subsurface drip irrigation (SDI) in the Steppe of Ukraine. The wetting zone of dark-chestnut residual-saline sandy soil (SI "SF "Brylivske") changed. There is a shift of the center relative to the drip water outlet into deeper horizons of the soil profile (up to 52 cm) with the increasing norm; soil layer 0-15 cm is almost not moistened, regardless of watering rate. At a distance of IP 1,0 m closing of wetting zones, occur at irrigation rates of 2,7 m3/100 running meter (r. m), and at a distance of IP 1,4 m does not occur even at irrigation rates of 3,7 m3/100 r. m, while the depth of wetting reaches 90 cm. The wetting zone of chernozem sandy loam on the loess species (SI "SF "Velyki Klyny") with irrigation rates of 2,7 m3/100 r. m was observed on the soil surface. The maximum depth of wetting, with irrigation norms of 3,7 m3/100 r. m, reached 70 cm with a maximum diameter of 79 cm at a depth of 25 cm. Closing of wetting zones was not observed. Studies at SI "SF "Brylivske" have confirmed that the depth of IP placement (on the soil surface or at a depth of 30 cm) influenced the formation of the soil water regime and the corn yield. The minimum total water consumption was 6271 m3/ha under drip irrigation (DI) (IP 1,4 m), 17 % more than SDI (IP 1,4 m), and 29% more than SDI (IP 1,0 m). The highest yield was obtained in the case of DI (IP 1,4 m) of 15,72 t/ha. SDI (IP 1,0 m) received 13,93 t/ha, and SDI (IP 1,4 m) received 13,50 t/ha. The distance between the IP in 1,0 m and 1.4 m of the SDI system did not significantly affect corn yield (13.93 and 13.50 t/ha, respectively), but at a distance of IP 1.4 m, the water consumption ratio was 6.8% less compared to IP 1,0 m. The value of the irrigation rate in the variants SDI (IP 1.0 m) was higher than SDI (IP 1,4 m) by 13,6 %. Therefore, in terms of irrigation water consumption and capital expenditures, the SDI (IP 1,4 m) is more economical. Experimental studies conducted in the SI "SF "Velyki Klyny" show that the depth of placement of IP (on the soil surface or at a depth of 20 cm) did not affect the corn yield. For DI (IP 1,0 m) the yield was 12,00 t/ha and for SDI (IP 1.0 m) was 12,10 t/ha, with a water consumption ratio of 533,8 m3/t, and for DI (IP 1,0 m) by 3,6 % more. The research results confirm the importance of the parameters of SDI system for the formation of soil water regime and, accordingly, the realization of the potential of varieties and hybrids of crops for their cultivation by SDI.

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Influence of irrigation methods on corn’s productivity

PLANT AND SOIL SCIENCE ◽

10.31548/agr2020.04.034 ◽

2020 ◽

Vol 11 (4) ◽

pp. 34-42

Author(s):

A. P. Shatkovskyi ◽

◽

O. V. Zhuravlov ◽

F. S. Melnychuk ◽

I. M. Ovchatov ◽

...

Keyword(s):

Surface Area ◽

Drip Irrigation ◽

Leaf Surface ◽

Subsurface Drip Irrigation ◽

Research Station ◽

Corn Yield ◽

Growth Processes ◽

Significant Difference ◽

Leaf Surface Area ◽

Subsurface Drip

Modern methods of irrigation are considered as a key factor in the intensification of technologies for growing of grain corn. The productivity of the crop as a result of the optimization of water and nutrient regimes increases from 100 to 380% in comparison with non-irrigated conditions. The aim of the research was to study the effect of sprinkling, drip irrigation and subsurface drip irrigation on growth processes, the structure of the crop formation and the yield of grain corn. Field experimental studies were conducted on the lands of Kamyans'ko-Dnieprovs'ka research station IWPLM of NAAS during 2018-2020The obtained results confirm that the method of irrigation significantly affects the formation of basic biometric parameters, yield structure and productivity. It is established that the maximum parameters of growth processes (plant height, leaf surface area, as well as photosynthetic potential and net photosynthesis productivity) of corn are provided by drip irrigation. Significantly lower and similar values were determined for the conditions of subsurface drip irrigation and sprinkling, and the lowest parameters of corn productivity were obtained under natural moisture conditions. The highest yield of corn grain was obtained under drip irrigation – 20,69 t on ha, while under subsurface laying of irrigation pipelines it was significantly lower – 16,44 t on ha. In the variant with sprinkling, the decrease in grain yield by 0,62 t on ha compared to subsurface drip irrigation was within the least significant difference of the experiment (LSDА0,5 = 1,93). On the variant of conditional control (without irrigation), on average, for three years, a low yield level was obtained - only 3,85 t on ha, which confirms the significant risks and inexpediency of this crop in the Steppe conditions without irrigation. The results also confirm the existence of a close correlation between corn yield and leaf surface area of plants. The obtained dependence is described by a linear equation of the form y = 0,6227x – 14,133, and the coefficient of determination is R2 = 0,98.

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Effect of amount and timing of subsurface drip irrigation on corn yield

Irrigation Science ◽

10.1007/s00271-012-0334-4 ◽

2012 ◽

Vol 31 (4) ◽

pp. 599-609 ◽

Cited By ~ 17

Author(s):

Simon J. van Donk ◽

James L. Petersen ◽

Don R. Davison

Keyword(s):

Drip Irrigation ◽

Subsurface Drip Irrigation ◽

Corn Yield ◽

Subsurface Drip

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Effects of Surface and Subsurface Drip Irrigation on the Yield, Vegetative Growth and Water Productivity of Onions

Contemporary Agriculture ◽

10.2478/contagri-2018-0021 ◽

2018 ◽

Vol 67 (2) ◽

pp. 149-156

Author(s):

Borivoj Pejić ◽

Ksenija Mačkić ◽

Predrag Randjelović ◽

Ivan Valtner ◽

Jelica Gvozdanović-Varga ◽

...

Keyword(s):

Water Use Efficiency ◽

Water Use ◽

Drip Irrigation ◽

Water Productivity ◽

Subsurface Drip Irrigation ◽

Yield Response ◽

Response Factor ◽

Use Efficiency ◽

Yield Response Factor ◽

Subsurface Drip

Summary The objective of this study, conducted in the northern Serbian province of Vojvodina, was to analyze the effect of surface and subsurface drip irrigation (with drip lateral placement depths of 0.05 and 0.1 m) on the yield and water productivity of onions (Allium cepa L., var. ‘Holandski žuti’). The irrigation applied was scheduled on the basis of the water balance method. The daily evapotranspiration rate was computed using the reference evapotranspiration (ETo) based on the Hargreaves equation and the crop coefficient (kc). The irrigation rate was 30 mm, whereas the amount of water added by irrigation during the season was 150 mm. According to the results obtained, the onion yield under irrigated conditions was significantly higher than that under non-irrigated (control) conditions. Differences in the yield obtained using surface and subsurface irrigation were non-significant. The amounts of water used for evapotranspiration under irrigated and non-irrigated conditions were 363 mm and 220 mm, respectively. The value of the surface irrigation yield response factor (Ky) was 0.62, whereas the values of the subsurface irrigation yield response factor (Ky) were 0.61 (0.05 m) and 0.79 (0.1 m). Consequently, onions grown from sets proved moderately sensitive to water stress under regional climate conditions and could be grown without irrigation. The value of the irrigation water use efficiency (Iwue) ranged from 3.55 to 4.97 kg m−3, whereas the value of the evapotranspiration water use efficiency (ETwue) ranged from 3.72 to 5.22 kg m−3. The highest yield of onions was obtained using a drip lateral placement depth of 0.1 m, which is recommended for high-yielding onion production.

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