Effect of Deficit Irrigation on Dry Matter Yield and Water Productivity of Young Harerghe Coffee Genotypes at Jimma, Southwest Ethiopia

Irrigation management practices that reduce water use with acceptable impacts on yield are important strategies to cope with diminished water supplies and generate new sources of water to transfer for other agricultural uses, and urban and environmental demands. This study was intended to assess the effects of moderate water deficits, with the goal of maintaining robust alfalfa (Medicago sativa L.) yields, while conserving on-farm water. Data collection and analysis were conducted at four commercial fields over an 18-month period in the Palo Verde Valley, California, from 2018–2020. A range of deficit irrigation strategies, applying 12.5–33% less irrigation water than farmers’ normal irrigation practices was evaluated, by eliminating one to three irrigation events during selected summer periods. The cumulative actual evapotranspiration measured using the residual of energy balance method across the experimental sites, ranged between 2,031 mm and 2.202 mm, over a 517-day period. An average of 1.7 and 1.0 Mg ha−1 dry matter yield reduction was observed under 33% and 22% less applied water, respectively, when compared to the farmers’ normal irrigation practice in silty loam soils. The mean dry matter yield decline varied from 0.4 to 0.9 Mg ha−1 in a clay soil and from 0.3 to 1.0 Mg ha−1 in a sandy loam soil, when irrigation water supply was reduced to 12.5% and 25% of normal irrigation levels, respectively. A wide range of conserved water (83 to 314 mm) was achieved following the deficit irrigation strategies. Salinity assessment indicated that salt buildup could be managed with subsequent normal irrigation practices, following deficit irrigations. Continuous soil moisture sensing verified that soil moisture was moderately depleted under deficit irrigation regimes, suggesting that farmers might confidently refill the soil profile following normal practices. Stand density was not affected by these moderate water deficits. The proposed deficit irrigation strategies could provide a reliable amount of water and sustain the economic viability of alfalfa production. However, data from multiple seasons are required to fully understand the effectiveness as a water conservation tool and the long-term impacts on the resilience of agricultural systems.

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Onion Crop Response to Regulated Deficit Irrigation under Mulching in Dry Mediterranean Region

Journal of Horticultural Research ◽

10.2478/johr-2018-0010 ◽

2018 ◽

Vol 26 (1) ◽

pp. 87-94 ◽

Cited By ~ 1

Author(s):

Ibrahim Mubarak ◽

Altayeb Hamdan

Keyword(s):

Deficit Irrigation ◽

Mediterranean Region ◽

Crop Production ◽

Dry Matter ◽

Management Practice ◽

Water Productivity ◽

Total Yield ◽

Water Shortage ◽

Regulated Deficit Irrigation ◽

Irrigation Level

Abstract Enhancing water productivity for sustainable crop production and water savings represents a major challenge for agricultural water management. Pot experiments under open field conditions were conducted for two years, 2016 and 2017, to assess the effects of regulated deficit irrigation under mulch on onion crop production, following a 2 × 3 factorial experiment with two soil cover systems (wheat straw mulch and no-mulch) and three irrigation levels (100%, 80%, and 60% of crop evapotranspiration), with six replications.The results indicated that onion plants were responsive to straw mulching. Bulb diameter, total yield, dry matter, and water productivity were significantly enhanced under mulch whatever the irrigation level used. The seasonal crop water requirements also considerably decreased (about 33%). The results also showed the sensitivity of onion to water stress. Yield, dry matter, and water productivity were higher under full irrigation compared to the deficit irrigation. However, when mulch was used, regulated deficit irrigation highly significantly improved water productivity and onion crop quality and quantity; and this approach could be a promising management practice to meet water shortage consequences in the dry Mediterranean region.

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Optimum harvest date of maize for biogas and silage purposes

Acta Agronomica Hungarica ◽

10.1556/aagr.57.2009.2.3 ◽

2009 ◽

Vol 57 (2) ◽

pp. 119-125

Author(s):

G. Hadi

Keyword(s):

Dry Matter ◽

Biogas Production ◽

Weather Conditions ◽

Vegetation Period ◽

Dry Mass ◽

Matter Content ◽

Harvest Date ◽

Dry Matter Content ◽

Dry Matter Yield ◽

Vegetative Organs

The dry matter and moisture contents of the aboveground vegetative organs and kernels of four maize hybrids were studied in Martonvásár at five harvest dates, with four replications per hybrid. The dry matter yield per hectare of the kernels and other plant organs were investigated in order to obtain data on the optimum date of harvest for the purposes of biogas and silage production.It was found that the dry mass of the aboveground vegetative organs, both individually and in total, did not increase after silking. During the last third of the ripening period, however, a significant reduction in the dry matter content was sometimes observed as a function of the length of the vegetation period. The data suggest that, with the exception of extreme weather conditions or an extremely long vegetation period, the maximum dry matter yield could be expected to range from 22–42%, depending on the vegetation period of the variety. The harvest date should be chosen to give a kernel moisture content of above 35% for biogas production and below 35% for silage production. In this phenophase most varieties mature when the stalks are still green, so it is unlikely that transport costs can be reduced by waiting for the vegetative mass to dry.

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Yield and quality of legumes-festulolium feeds when cultivated on gray forest soils of Kaluga region

сборник статей всероссийской научной конференции с международным участием "Растениеводство и луговодство" ◽

10.26897/978-5-9675-1762-4-2020-134 ◽

2020 ◽

Author(s):

V.N. Lukhashov ◽

◽

A.N. Isakov

Keyword(s):

Forest Soils ◽

Dry Matter ◽

Dry Matter Yield ◽

Gray Forest Soils ◽

Yield And Quality ◽

Kaluga Region

The article shows dry matter yield and quality of legumes-festulolium feeds when cultivated on gray forest soils of Kaluga region.

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Nitrogen Fertilization of Basil

HortScience ◽

10.21273/hortsci.33.3.481a ◽

1998 ◽

Vol 33 (3) ◽

pp. 481a-481 ◽

Cited By ~ 1

Author(s):

M. Rangappa ◽

H.L. Bhardwaj

Keyword(s):

Moisture Content ◽

Dry Matter ◽

Calcium Nitrate ◽

Control Treatment ◽

Dry Matter Yield ◽

Sweet Basil ◽

Broad Leaf ◽

Yield Difference ◽

Optimum N Rate ◽

N Rates

Sweet basil (Ocimum basilicum) is an important culinary herb in Virginia and other areas. The objective of this study, conducted during 1997, was to determine optimal N rate for fresh and dry matter yield. Seed of Broad Leaf sweet basil were direct-seeded on 18 June in rows 0.75 m apart in a RCBD design with 8 replications. Four N rates (0, 25, 50, and 75 kg N/ha) were used. Calcium nitrate (15.5% N) was used as the fertilizer source. All plants from 1-m row length from middle row of each plot were harvested by hand on 23 Sept. and fresh weights were recorded. The plant material was dried at 70°C for 48 h to record dry weights. The moisture content at harvest was calculated from fresh and dry weights. The fresh yields following 0, 25, 50, and 75 kg N/ha were 3.7, 5.4, 6.4, and 6.8 kg/m2, respectively. The yield difference between two highest N rates was not significant, however, both these rates had significantly higher yield than the two lowest rates. Similar results were also obtained for dry matter yields. The highest N rate of 75 kg N/ha resulted in significantly higher dry matter yield (1.3 kg/m2) as compared to the other three rates. The lowest dry matter yield was obtained after the control treatment (0.6 kg/m2). An opposite relationship between N rate and moisture content was observed when the highest moisture content resulted from control and 50 kg N/ha treatments. These results indicate that optimum N rate for sweet basil in Virginia is 50 to 75 kg/ha.

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