Synthesis, Characterization, and Application of Superhydrophobic Sands in Desert Agriculture
A sustainable supply of fresh water for the human population is a global concern. Intriguingly, about 70% of the total fresh water consumed in the world annually is claimed by agriculture alone; this fraction is even higher in the Middle East and North Africa (MENA) region, where natural regeneratio...
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ndltd-kaust.edu.sa-oai-repository.kaust.edu.sa-10754-6234722020-08-24T05:08:18Z Synthesis, Characterization, and Application of Superhydrophobic Sands in Desert Agriculture Reihmer, Joel W. Mishra, Himanshu Biological and Environmental Sciences and Engineering (BESE) Division Tester, Mark A. Ghaffour, NorEddine Superhydrophobicity Desert Agriculture Food-water-energy nexus Sand evaporative loss artificial mulch A sustainable supply of fresh water for the human population is a global concern. Intriguingly, about 70% of the total fresh water consumed in the world annually is claimed by agriculture alone; this fraction is even higher in the Middle East and North Africa (MENA) region, where natural regeneration of groundwater is the slowest. Thus, there is a serious need for innovative materials and technologies to enhance the efficiency water usage in agriculture. To this end, plastic mulches have been employed across the developed world to minimize evaporative loss of water from top-soils. While plastic mulches are inexpensive, they do require specialized farm machinery for installation and long processing times. On one hand, plastic mulches have proven to increase crop yields, but on the other their non-biodegradability poses serious environmental concerns. In response, development of low-cost bio-/photo-degradable artificial mulches remains an area of intense research. In this thesis, we report on a novel superhydrophobic material exploiting inexpensive simple components to reduce the amount of water required for irrigation in agriculture by suppressing evaporative losses from the top-soil. Our material consists of ordinary beach sand coated with < 20 nm thick layer of paraffin wax. We synthesized and extensively characterized our material and applied them as mulches for tomato and barley plants at the KAUST greenhouse. We found that when a ~5 mm thick layer of superhydrophobic sand was placed onto the top-soil in pots, it dramatically suppressed evaporative losses and significantly enhanced the yields. Our preliminary field-scale experiments with tomatoes and barley crops at the Hada Al Sham site corroborate these results. Our approach might find applications in desert agriculture and other fields and alleviate water stress in the MENA region. 2017-05-11T11:06:42Z 2018-05-11T00:00:00Z 2017-04 Thesis 10.25781/KAUST-SRISH http://hdl.handle.net/10754/623472 en 2018-05-11 At the time of archiving, the student author of this thesis opted to temporarily restrict access to it. The full text of this thesis became available to the public after the expiration of the embargo on 2018-05-11. |
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Superhydrophobicity Desert Agriculture Food-water-energy nexus Sand evaporative loss artificial mulch |
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Superhydrophobicity Desert Agriculture Food-water-energy nexus Sand evaporative loss artificial mulch Reihmer, Joel W. Synthesis, Characterization, and Application of Superhydrophobic Sands in Desert Agriculture |
description |
A sustainable supply of fresh water for the human population is a global concern. Intriguingly, about 70% of the total fresh water consumed in the world annually is claimed by agriculture alone; this fraction is even higher in the Middle East and North Africa (MENA) region, where natural regeneration of groundwater is the slowest. Thus, there is a serious need for innovative materials and technologies to enhance the efficiency water usage in agriculture. To this end, plastic mulches have been employed across the developed world to minimize evaporative loss of water from top-soils. While plastic mulches are inexpensive, they do require specialized farm machinery for installation and long processing times. On one hand, plastic mulches have proven to increase crop yields, but on the other their non-biodegradability poses serious environmental concerns. In response, development of low-cost bio-/photo-degradable artificial mulches remains an area of intense research.
In this thesis, we report on a novel superhydrophobic material exploiting inexpensive simple components to reduce the amount of water required for irrigation in agriculture by suppressing evaporative losses from the top-soil. Our material consists of ordinary beach sand coated with < 20 nm thick layer of paraffin wax. We synthesized and extensively characterized our material and applied them as mulches for tomato and barley plants at the KAUST greenhouse. We found that when a ~5 mm thick layer of superhydrophobic sand was placed onto the top-soil in pots, it dramatically suppressed evaporative losses and significantly enhanced the yields. Our preliminary field-scale experiments with tomatoes and barley crops at the Hada Al Sham site corroborate these results. Our approach might find applications in desert agriculture and other fields and alleviate water stress in the MENA region. |
author2 |
Mishra, Himanshu |
author_facet |
Mishra, Himanshu Reihmer, Joel W. |
author |
Reihmer, Joel W. |
author_sort |
Reihmer, Joel W. |
title |
Synthesis, Characterization, and Application of Superhydrophobic Sands in Desert Agriculture |
title_short |
Synthesis, Characterization, and Application of Superhydrophobic Sands in Desert Agriculture |
title_full |
Synthesis, Characterization, and Application of Superhydrophobic Sands in Desert Agriculture |
title_fullStr |
Synthesis, Characterization, and Application of Superhydrophobic Sands in Desert Agriculture |
title_full_unstemmed |
Synthesis, Characterization, and Application of Superhydrophobic Sands in Desert Agriculture |
title_sort |
synthesis, characterization, and application of superhydrophobic sands in desert agriculture |
publishDate |
2017 |
url |
http://hdl.handle.net/10754/623472 |
work_keys_str_mv |
AT reihmerjoelw synthesischaracterizationandapplicationofsuperhydrophobicsandsindesertagriculture |
_version_ |
1719338865106354176 |