Foliar solution hydrophobicity influenced by plant species, product, and concentration
Foliar application of nutrients and pesticides is a popular practice for plant maintenance and weed control. Understanding how different products and adjuvants interact with the intended plant leaf surface will improve uptake and decrease losses. Various fertilizer, adjuvant, and pesticide solutions...
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| Veröffentlicht in: | International Turfgrass Society research journal 2024-10 |
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| creator | Bethea, Frank G. Liu, Haibo Bruce, Terri Bridges, William Lou, Hong |
| description | Foliar application of nutrients and pesticides is a popular practice for plant maintenance and weed control. Understanding how different products and adjuvants interact with the intended plant leaf surface will improve uptake and decrease losses. Various fertilizer, adjuvant, and pesticide solutions were tested to determine solution hydrophobicity on St. Augustinegrass, tall fescue, and white clover. A 1 µL droplet of each solution was placed on the adaxial leaf surface and imaged with a stereomicroscope to determine average solution contact angle. For all solutions groups, plant species had the most consistent effect, with white clover having the highest average contact angle followed by St. Augustinegrass and tall fescue, respectively. All product solutions significantly reduced the average contact angle compared to water. The urea solution resulted in the largest decrease for the fertilizer group at 7.6%. The largest decrease was found with the siloxane nonionic surfactant, which resulted in a decrease of 87.5% compared to water alone. Significant interactions were found between plant species and product solutions, indicating product solutions interact differently dependent upon the leaf surface characteristics. The results suggest that plant leaf surface, product solution and concentration, and their combination should be accounted for to increase wettability of a foliar application and improve product absorption.
Solution hydrophobicity on St. Augustinegrass, tall fescue, and white clover were studied.
The 1 µL droplets of each solution were studied on the adaxial leaf surface.
All product solutions significantly reduced the average contact angle compared to water.
The urea solution had the largest contact angle decrease compared with other solutions. |
| doi_str_mv | 10.1002/its2.153 |
| format | Article |
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Solution hydrophobicity on St. Augustinegrass, tall fescue, and white clover were studied.
The 1 µL droplets of each solution were studied on the adaxial leaf surface.
All product solutions significantly reduced the average contact angle compared to water.
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Solution hydrophobicity on St. Augustinegrass, tall fescue, and white clover were studied.
The 1 µL droplets of each solution were studied on the adaxial leaf surface.
All product solutions significantly reduced the average contact angle compared to water.
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Solution hydrophobicity on St. Augustinegrass, tall fescue, and white clover were studied.
The 1 µL droplets of each solution were studied on the adaxial leaf surface.
All product solutions significantly reduced the average contact angle compared to water.
The urea solution had the largest contact angle decrease compared with other solutions.</abstract><doi>10.1002/its2.153</doi><oa>free_for_read</oa></addata></record> |
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| title | Foliar solution hydrophobicity influenced by plant species, product, and concentration |
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