Effects of superhydrophobic sand mulching on evapotranspiration and phenotypic responses in tomato (<i>Solanum lycopersicum</i>) plants under normal and reduced irrigation

Odokonyero, Kennedy; Gallo, Adair; Santos, Vinicius dos; Mishra, Himanshu

doi:10.1002/pei3.10074

Cited by 2 publications

(5 citation statements)

References 92 publications

(132 reference statements)

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“…In related studies, plastic mulching significantly improved flowering and panicle number in M. oleifera plants 34 ; while Gliricidia biochar also showed significant positive effects on the growth of Moringa in terms of plant height, stem diameter, dry matter yield and root: shoot ratio 35 . Consistent with our findings under SHS mulching, soil water availability positively correlates with leaf area, stomatal conductance, transpiration, and biomass 24, 36 .…”

Section: Discussionsupporting

confidence: 91%

“…On account of its extreme water repellency 23, 25 , our SHS significantly reduced evaporation of water from the soil and substantially contributed to enhanced soil water retention. The water retained in the soil due to the suppressed evaporation gets channeled towards transpiration by the plant’s vascular systems 24, 26 , as was demonstrated by the significant increases in transpiration due to the SHS and SHS+biochar treatments under N or R irrigation ( Fig. 1-2 ).…”

Section: Discussionmentioning

confidence: 92%

“…The SHS used was produced using our lab-scale batch reactor by direct melting of paraffin wax via a heating process, which obviated the use of organic solvent as reported in our previous protocol [23][24][25] . A known mass of paraffin wax mixed with a known mass of sand (1:600 ratio) was heated in a rotating cement mixer for about 30 minutes until the surface of the sand particles was coated with a thin layer of the wax, i.e.…”

Section: Shs Mulchmentioning

confidence: 99%

“…SHS is a water-repellent material comprising of sand grains coated with thin layer of paraffin wax. Applying a 0.5–1 cm-thick SandX layer as a mulch can reduce evaporative water loss from the soil by 50-80%; plants transpire more and withstand the water/heat stress, and grow better in arid environments 23, 24 . The biochar used is a nutrient-enriched biochar derived from the pyrolysis of date palm biomass as feedstock.…”

Section: Introductionmentioning

confidence: 99%

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Superhydrophobic Sand Mulch and Date Palm Biochar Dramatically Boost Growth ofMoringa oleiferain Sandy Soil: Insights into Evapotranspiration Budgeting and Metabolomic Profiling

Odokonyero,

Vernooij,

Albar

et al. 2024

Preprint

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In response to the challenge of nutrient-deficient sandy soils and water scarcity due to excessive evaporative water loss in arid regions, we developed and tested two complementary soil amendment technologies: Superhydrophobic sand (SHS) mulch and an enriched date palm biochar. In a greenhouse pot experiment, we investigated the independent and synergistic effects of SHS mulch (10 mm thickness) and biochar (2% w/w) on Moringa oleifera plants under normal (N, 100% field capacity) and reduced (R, 50% of N) irrigation scenarios. Under N and R, SHS mulch reduced evaporation by 71% and 64%, respectively; while SHS+biochar reduced evaporation by 61% and 47%, respectively, in comparison with the control (p < 0.05). Total transpiration significantly increased in SHS plants by 311% and 385% under N and R, respectively. Compared with the control, transpiration increased in biochar plants by 103% and 110%; whereas, its combination with SHS increased transpiration by 288% and 301% under N and R, respectively (p < 0.05). Irrespective of the irrigation regimes, we found superior effects of SHS, biochar, and their combination on plant height (62% to 140%), trunk diameter (52% to 91%), leaf area index (57% to 145%), leaf chlorophyll content index (11% to 19%), stomatal conductance (51% to 175%), as well as shoot (390% to 1271%) and root (52% to 142%) biomass, in comparison with the controls. Metabolomics analysis showed significantly higher relative abundance of amino acids, sugars, fatty acids, and organic acids in the leaves of control plants relative to other treatments, as a response to water or nutrient stress induced by excessive water loss through evaporation. Next, we found a higher concentration of D-Mannose, D-Fructose, glucose, and malic acid in plants grown with SHS or biochar treatment under N and R irrigation, attributed to increased water/nutrient-use efficiency and carbon assimilation because of higher photosynthesis rates than in the control plants. Our results show that, our complementary technologies could address the challenge of water loss via evaporation from soil and maximize soil nutrient retention for improving plant growth in arid regions. This could underscore the success and sustainability of irrigated agriculture and greening efforts in arid lands.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 92%

Section: Shs Mulchmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Superhydrophobic Sand Mulch and Date Palm Biochar Dramatically Boost Growth ofMoringa oleiferain Sandy Soil: Insights into Evapotranspiration Budgeting and Metabolomic Profiling

Odokonyero,

Vernooij,

Albar

et al. 2024

Preprint

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“…When applied as a 5-10 mm layer on the topsoil, SHS acts as a dry diffusive barrier and dramatically curtails evaporative water loss (Figure 4). As a result, the moisture content is significantly higher in the mulched soil that plants utilize for transpiration, nutrients uptake, and so on; consequently, plant health and yield are significantly higher as evidenced from multiyear field trials (Gallo et al 2022) and controlled environment studies on a variety of crops (Odokonyero et al 2022). Ongoing experiments in this translational research programme include quantifying the effects of SHS mulching when irrigation is facilitated via treated wastewater effluent from an anaerobic process; time-dependent loss of SHS wax layer and water repellence due to microbial activity in the soil; and scaling up SHS manufacturing.…”

Section: Superhydrophobic Sand For Growing More Food With Less Watermentioning

confidence: 99%

Adopting the circular model: opportunities and challenges of transforming wastewater treatment plants into resource recovery factories in Saudi Arabia

Ali

Hong

Mishra

et al. 2022

Journal of Water Reuse and Desalination

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With the ever-growing population, water, energy, and resources need to be used carefully, reused, and renewed. There is an increasing global interest in resource recovery from ‘waste’, which is driven by sustainability and environmental concerns and motivated by the potential for economic benefits. A new era in waste (water) management is being realized where wastewater treatment is becoming part of the circular economy by integrating the production of reusable water with energy and resource recovery. In this new perspective, wastewater is no longer seen as a waste to be treated with energy expenditure but rather as a valuable resource of freshwater, energy, nutrients (nitrogen and phosphorous), and materials (e.g., bioplastics, cellulose fibres, and alginate). In this review paper, the conversion of wastewater treatment plants (WWTPs) into resource recovery factories (RRFs) is presented as one of the ways forward to achieve a circular economy in the water sector for the Kingdom of Saudi Arabia (KSA). The advanced technologies, some highlighted in the article, can be installed, integrated, or retrofitted into existing WWTPs to create RRFs enabling the recovery of freshwater, cellulose, alginate-like exopolymers (bio-ALE), and biogas from municipal wastewater achieving climate neutrality, decarbonization, and production of new and promising resources. The article highlights the need for modular, adaptive, and/or decentralized approaches using sustainable technologies such as aerobic granular sludge (AGS)-gravity-driven membrane (AGS-GDM), anaerobic electrochemical membrane bioreactor (AnEMBR), and anaerobic membrane bioreactor (AnMBR) for conducive localized water reuse. The increase in reuse will reduce the pressure on non-renewable water resources and decrease dependency on the energy-intensive desalination process. This article also outlines the water challenges that are arising in KSA and what are the major water research programmes/themes undertaken to address these major challenges.

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Effects of superhydrophobic sand mulching on evapotranspiration and phenotypic responses in tomato (Solanum lycopersicum) plants under normal and reduced irrigation

Cited by 2 publications

References 92 publications

Superhydrophobic Sand Mulch and Date Palm Biochar Dramatically Boost Growth ofMoringa oleiferain Sandy Soil: Insights into Evapotranspiration Budgeting and Metabolomic Profiling

Superhydrophobic Sand Mulch and Date Palm Biochar Dramatically Boost Growth ofMoringa oleiferain Sandy Soil: Insights into Evapotranspiration Budgeting and Metabolomic Profiling

Adopting the circular model: opportunities and challenges of transforming wastewater treatment plants into resource recovery factories in Saudi Arabia

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