Response of Tomato Variety (Roma F) Yield to Different Mulch Materials and Staking in Kabba, Kogi State, Nigeria

Ogundare, S. K.; Babatunde, Ibitoniola; Etukudo, O. O.

doi:10.5296/jas.v3i2.7568

Cited by 17 publications

(4 citation statements)

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“…3), more irrigation water was needed for the BSN treatment compared with the other treatments to compensate for the increased water lost by evaporation. Although the absorption of solar radiation by the black plastic of the BPM treatment would increase soil temperature (Hopen and Oebker, 1976), the water vapor generally remained under the black plastic, thereby minimizing soil water evaporation and soil water depletion compared with the organic mulch (SM) and bare soil (CK) (Ogundare et al, 2015;Zribi et al, 2015). Liu et al (2008) reported that wheat straw could reduce soil temperature, surface evaporation, and soil water depletion when the amount was over 6000 kg ha -1 , and that the surface soil evaporation rate remained stable with no further decreases in evaporation rate when the residue amount was greater than 9000 kg ha -1 .…”

Section: Discussion Effect Of Mulching On Irrigationmentioning

confidence: 99%

Mulches Improve Ridge‐tillage Tomato Production under Drip Irrigation with Saline Water

et al. 2019

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Core Ideas Soil salinity three years after first growing season was fluctuated slightly.Soil salinity under wheat straw was lower than both waterproof and pervious plastic mulch.Wheat straw improved tomato yield, followed by black waterproof plastic mulch. Fresh water resources in the North China Plain are declining due to increasing industrial and domestic water use. These uses raise the agricultural demand for low quality water. To provide appropriate management techniques for safely using saline water, different mulching materials were tested on ridge‐tillage tomato (Lycopersicon esculentum Mill.). Four treatments: control (bare land, CK), black plastic (BPM), black sheet net (BSN), and wheat straw (SM) were designed to: (i) evaluate the effects of mulching on the irrigation amount, soil salinity, tomato yield, and irrigation water productivity (IWP); and (ii) develop integrated irrigation strategies using saline water securely. The average required water for the SM and BPM treatments reduced by 12 and 20%, respectively. Electrical conductivity of saturated paste extracts (ECe) increased from 1.91 to 4.07 dS m−1 in 0‐ to 40‐cm root zone and from 2.33 to 4.24 dS m−1 in 0‐ to 120‐cm soil profile after the first year irrigation, and then fluctuated slightly during the next 3 yr due to precipitation and evaporation. The ECe for the SM treatment was always the least in 4 yr. Compared with CK, the BPM and SM treatments over 4 yr increased the average tomato yield by 26 and 42%, and increased the average IWP by 62 and 70%, respectively. Therefore, straw mulching was the best mulching material to safely use saline water of <6.3 dS m−1 for the ridge‐tillage tomato under drip irrigation, followed by black plastic mulching, in a temperate semi humid monsoon climate zone.

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Section: Discussion Effect Of Mulching On Irrigationmentioning

confidence: 99%

Mulches Improve Ridge‐tillage Tomato Production under Drip Irrigation with Saline Water

et al. 2019

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“…While, plastic mulch conserve soil moisture is greater than organic mulches. Plastic mulch treatment stored the highest amount of soil moisture compared to the organic mulch treatments, which stored greater moisture than the bare soil [26]. In the experiments of Ashrafuzzamanet al, [27], transparent plastic mulch provided the highest soil moisture (21.1%), followed by black plastic mulch (20.4%) and blue plastic mulch (19.2%), and the control (bare soil) (14.6%) provided the lowest soil moisture at 0-10 cm soil profile at 90 days after sowing and Thakur et al, [28] also reported significantly higher soil moisture content at 70 days after sowing in Glyricidialeaves mulch treatment and it was statistically at par with the green weed biomass mulching compared to no mulch treatment.…”

Section: Review Of Literature Effect On Soil Moisture Conservationmentioning

confidence: 91%

Mulching: An Efficient Technology for Sustainable Agriculture Production

Kumar,

Usadadiya

2023

IJPSS

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The application of mulching practices reduces soil evaporation, conserves soil moisture, suppresses weed growth, controls soil structure and temperature, influences soil micro-organisms, and is aesthetically pleasing. This study has reviewed, which described the effects of various mulching materials and methods on soil and environment that influence crop productivity. This paper describes the extent of influence of different mulching materials and methods on the hydrothermal environment of soils. It is imperative to know the processes that control soil environments under various mulching conditions and the effects of mulching materials on crop yield, productivity and water use efficiency. Plastic mulching materials also have a greater importance to control soil environment and increase crop yield. Organic mulching materials are inexpensive and environment friendly. The selection of an appropriate mulching material is, however, guided by crop type, crop management practices and climatic conditions. Future research is needed on the effects of low-cost biodegradable mulching materials on microclimate modifications, soil biota, soil fertility, crop growth and crop yields.

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“…The type of mulching material used for crop production influences soil hydrothermal properties. For example, plastic film mulches conserve greater amount of soil moisture than organic mulches (Ogundare et al 2015). Increased soil temperature and moisture under plastic film mulch promotes soil microbial activity and accelerates the decomposition of plant residues and organic matter ( Lee et al 2019;Wang et al 2016), which favors the release of greenhouse gases from soil, such as N 2 O emissions (Steinmetz et al 2016).…”

Section: Mulchingmentioning

confidence: 99%

Opportunities to reduce nitrous oxide emissions from horticultural production systems in Canada

et al. 2021

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Horticultural systems, specifically vegetable production systems, are considered intensive agricultural systems as they are characterized by high nitrogen (N) fertilizer application rate, frequent tillage and irrigation operations. Accordingly, horticultural production in temperate climates is prone to N losses—mainly during post-harvest (during fall and winter) or pre-plant (spring) periods—such as N2O emissions and nitrate leaching. The risk for N losses is linked to low crop N use efficiency (NUE) combined with a narrow C:N and high N content of crop residues. Here we reviewed the studies conducted in Canada and similar climates to better understand the risk of N2O emission and potential agronomic management strategies to reduce N2O emissions from horticultural systems. Current knowledge on N2O emissions from horticultural systems indicate that increasing crop NUE, modifying the amount, type, time, and rate of N fertilizer inputs, and adopting cover crops in crop rotations are some of the effective approaches to decrease N2O emissions. However, there is uncertainty related to the efficiency of the existing N2O mitigation strategies due to the complex interactions between the factors (soil characteristics, type of plant species, climatic conditions, and soil microbial activity) responsible for N2O production from soil. Little research on N2O emissions from Canadian horticultural systems limits our ability to understand and manage the soil N2O production processes to mitigate the risk of N2O emissions. Thus, continuing to expand this line of research will help to advance the sustainability of Canadian horticultural cropping systems.

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Response of Tomato Variety (Roma F) Yield to Different Mulch Materials and Staking in Kabba, Kogi State, Nigeria

Cited by 17 publications

References 1 publication

Mulches Improve Ridge‐tillage Tomato Production under Drip Irrigation with Saline Water

Mulches Improve Ridge‐tillage Tomato Production under Drip Irrigation with Saline Water

Mulching: An Efficient Technology for Sustainable Agriculture Production

Opportunities to reduce nitrous oxide emissions from horticultural production systems in Canada

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