Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress

Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress

Ultrafine bubbles (UFBs) exhibit a number of unique physical characteristics; however, reports on plant growth enhancement by UFB application are controversial. Here, we report experiments conducted to test whether UFB technology effectively promotes plant growth. We analyzed the effects of three ex...

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Main Authors: Morio Iijima, Kaito Yamashita, Yoshihiro Hirooka, Yoshikatsu Ueda, Koji Yamane, Chikashi Kamimura
Format: Article
Language:English
Published: Taylor & Francis Group 2020-07-01
Series:Plant Production Science
Subjects:
aeration
glycine max
hypoxia
plant nutrition
soybean
stirring
ultrafine bubble
Online Access:http://dx.doi.org/10.1080/1343943X.2020.1725391
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spelling doaj-1db53263e8484570b88d6ba7b78569c12020-11-25T03:17:44ZengTaylor & Francis GroupPlant Production Science1343-943X1349-10082020-07-0123336637310.1080/1343943X.2020.17253911725391Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stressMorio Iijima0Kaito Yamashita1Yoshihiro Hirooka2Yoshikatsu Ueda3Koji Yamane4Chikashi Kamimura5Kindai UniversityKindai UniversityKindai UniversityKyoto UniversityKindai UniversityEatech Co. LtdUltrafine bubbles (UFBs) exhibit a number of unique physical characteristics; however, reports on plant growth enhancement by UFB application are controversial. Here, we report experiments conducted to test whether UFB technology effectively promotes plant growth. We analyzed the effects of three experimental factors: water (UFB addition), hypoxia (aeration), and fluid movement (stirring) on the growth of soybean seedlings cultured hydroponically under low and high nutrition levels in a controlled environment room under artificial lighting for 8 days. When no nutrients were supplied, positive UFB water effects were evident, but low nutrition reduced UFB water-mediated growth enhancement and high nutrition totally obliterated any growth enhancement by UFB water. We concluded that UFB water-induced growth enhancement was effective and significant under nutrient deficit stress but no growth enhancement was observed, and even negative effects were evident, under favorable plant growth conditions.http://dx.doi.org/10.1080/1343943X.2020.1725391aerationglycine maxhypoxiaplant nutritionsoybeanstirringultrafine bubble
collection DOAJ
language English
format Article
sources DOAJ
author Morio Iijima
Kaito Yamashita
Yoshihiro Hirooka
Yoshikatsu Ueda
Koji Yamane
Chikashi Kamimura
spellingShingle Morio Iijima
Kaito Yamashita
Yoshihiro Hirooka
Yoshikatsu Ueda
Koji Yamane
Chikashi Kamimura
Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress
Plant Production Science
aeration
glycine max
hypoxia
plant nutrition
soybean
stirring
ultrafine bubble
author_facet Morio Iijima
Kaito Yamashita
Yoshihiro Hirooka
Yoshikatsu Ueda
Koji Yamane
Chikashi Kamimura
author_sort Morio Iijima
title Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress
title_short Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress
title_full Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress
title_fullStr Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress
title_full_unstemmed Ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress
title_sort ultrafine bubbles effectively enhance soybean seedling growth under nutrient deficit stress
publisher Taylor & Francis Group
series Plant Production Science
issn 1343-943X
1349-1008
publishDate 2020-07-01
description Ultrafine bubbles (UFBs) exhibit a number of unique physical characteristics; however, reports on plant growth enhancement by UFB application are controversial. Here, we report experiments conducted to test whether UFB technology effectively promotes plant growth. We analyzed the effects of three experimental factors: water (UFB addition), hypoxia (aeration), and fluid movement (stirring) on the growth of soybean seedlings cultured hydroponically under low and high nutrition levels in a controlled environment room under artificial lighting for 8 days. When no nutrients were supplied, positive UFB water effects were evident, but low nutrition reduced UFB water-mediated growth enhancement and high nutrition totally obliterated any growth enhancement by UFB water. We concluded that UFB water-induced growth enhancement was effective and significant under nutrient deficit stress but no growth enhancement was observed, and even negative effects were evident, under favorable plant growth conditions.
topic aeration
glycine max
hypoxia
plant nutrition
soybean
stirring
ultrafine bubble
url http://dx.doi.org/10.1080/1343943X.2020.1725391
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AT yoshihirohirooka ultrafinebubbleseffectivelyenhancesoybeanseedlinggrowthundernutrientdeficitstress
AT yoshikatsuueda ultrafinebubbleseffectivelyenhancesoybeanseedlinggrowthundernutrientdeficitstress
AT kojiyamane ultrafinebubbleseffectivelyenhancesoybeanseedlinggrowthundernutrientdeficitstress
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