Utilizing Seawater as a Foliar Spray Under Freshwater Irrigation: How Can Harness the Inexpensive Resource of Beneficial Elements via Converting it to Nanoscale for Pepper Cultivation?

El-Ghamry, A. M.; Mosa, A. A.; El-Emam, Mona A.

doi:10.21608/jssae.2024.302295.1237

Home Articles List Article Information

|
|
|
How to cite
RIS EndNote BibTeX APA MLA Harvard Vancouver
|
Share

Journal of Soil Sciences and Agricultural Engineering

Articles in Press

Current Issue

Journal Archive

Volume 16 (2025)

Volume 15 (2024)

Issue 12

Issue 11

Issue 10

Issue 9

Issue 8

Issue 7

Issue 6

Issue 5

Issue 4

Issue 3

Issue 2

Issue 1

Volume 14 (2023)

Volume 13 (2022)

Volume 12 (2021)

Volume 11 (2020)

Volume 10 (2019)

Volume 9 (2018)

Volume 8 (2017)

Volume 7 (2016)

Volume 6 (2015)

Volume 5 (2014)

Volume 4 (2013)

Volume 3 (2012)

Volume 2 (2011)

Volume 1 (2010)

Volume 34 (2009)

Volume 33 (2008)

Volume 32 (2007)

Volume 31 (2006)

Volume 30 (2005)

Volume 29 (2004)

Volume 28 (2003)

Volume 27 (2002)

Volume 26 (2001)

Volume 25 (2000)

	Utilizing Seawater as a Foliar Spray Under Freshwater Irrigation: How Can Harness the Inexpensive Resource of Beneficial Elements via Converting it to Nanoscale for Pepper Cultivation?
Article 5, Volume 15, Issue 7, July 2024, Page 193-204 PDF (1.22 MB)
Document Type: Original Article
DOI: 10.21608/jssae.2024.302295.1237
View on SCiNiTO
Authors
A. M. El-Ghamry; A. A. Mosa; Mona A. El-Emam
Mansoura University, Faculty of Agriculture, Soil Sciences Department, EL-Mansoura, 35516, Egypt
Abstract
Seawater, the most abundant water resource on Earth, presents a potential solution for sustainable agriculture. However, its high salinity challenges plant growth and soil health, necessitating innovative approaches. This study evaluates the feasibility of using seawater as a foliar spray under freshwater irrigation for pepper plants. Treatments involved seawater from the Mediterranean and Red Seas, both as normal and algae-based nanoparticle forms, combined with a salt solution (vanadium, zirconium, titanium). Seawater from Gamasa and Safaga, applied at 1% and 5% concentrations, was tested in its normal and nanoparticle forms, with and without the salt solution through a completely randomized experimental design. Results indicated that normal seawater from Gamasa and Safaga, even at higher concentrations, showed limited improvement over the control. Algae-based nanoparticles demonstrated enhanced plant growth and productivity, particularly from Safaga. The combination of nanoparticle seawater with the salt solution significantly outperformed other treatments; with Safaga’s combination, showing the highest increase in growth performance, photosynthetic pigments, fruit yield, and quality traits of pepper plants. This study highlights the potential of seawater for agricultural use, suggesting that algae-based nanoparticle treatment, especially when combined with a salt solution, can effectively enhance crop productivity. Future research should focus on optimizing these techniques to maximize benefits and minimize adverse effects, paving the way for seawater as a viable resource in sustainable agriculture.
Keywords
Algae-based nanoparticles; Seawater; Salt-solution


Statistics Article View: 158 PDF Download: 175