UV-irradiation enhances rice allelopathic potential in rhizosphere soil

Khalid Mahmood; Muhammad Bismillah Khan; Yuan Yuan Song; Muhammad Ijaz; Shi Ming Luo; Ren Sen Zeng

doi:10.1007/s10725-013-9804-9

UV-irradiation enhances rice allelopathic potential in rhizosphere soil

Khalid Mahmood, Muhammad Bismillah Khan, Yuan Yuan Song, Muhammad Ijaz, Shi Ming Luo, Ren Sen Zeng

Section for Transport Biology

12 Citations (Scopus)

Abstract

Ultraviolet-B radiation is rising continuously due to stratospheric ozone depletion over temperate latitudes. This study investigated effects of UV exposure on rice allelopathic potentials. For this purpose, two rice (Oryza sativa L.) cultivars BR-41 (high allelopathic = able to inhibit neighboring plants in native environment) and Huajingxian (low allelopathic = not able to inhibit neighboring plants, which were suppressed by higher allelopathic plants) were exposed to UV. Rhizosphere soils and leaf leachates bioassay were used to evaluate allelopathic potentials against receiver plants (barnyard grass and lettuce). These bioassays showed significant inhibition in lettuce and barnyard growth after UV in both rice cultivars. Interestingly, Huajingxian, which did not exhibit allelopathic potential in absence of UV showed significant inhibition after UV exposure. Phenolics, enzymes activities and genes responsible for biosynthesis of allelopathic compounds were examined after UV exposure. Phenolic compounds accumulated in rice leaves were quantified through HPLC analysis. They were significantly higher in BR-41 leaves after UV exposure. Enzyme activities (PAL and C4H) were significantly higher after UV exposure. The relative transcripts of genes (OsPAL and OsCYC1) responsible for biosynthesis of allelopathic compounds were also significantly higher after UV exposure. These results suggest that enhanced UV-irradiation levels due to ozone depletion may increase rice allelopathic potentials on paddy weeds.

Original language	English
Journal	Plant Growth Regulation
Volume	71
Issue number	1
Pages (from-to)	21-29
Number of pages	9
ISSN	0167-6903
DOIs	https://doi.org/10.1007/s10725-013-9804-9
Publication status	Published - Sept 2013

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10.1007/s10725-013-9804-9

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@article{c9b29e7f509849d5a46f8b75cb9b3dbc,

title = "UV-irradiation enhances rice allelopathic potential in rhizosphere soil",

abstract = "Ultraviolet-B radiation is rising continuously due to stratospheric ozone depletion over temperate latitudes. This study investigated effects of UV exposure on rice allelopathic potentials. For this purpose, two rice (Oryza sativa L.) cultivars BR-41 (high allelopathic = able to inhibit neighboring plants in native environment) and Huajingxian (low allelopathic = not able to inhibit neighboring plants, which were suppressed by higher allelopathic plants) were exposed to UV. Rhizosphere soils and leaf leachates bioassay were used to evaluate allelopathic potentials against receiver plants (barnyard grass and lettuce). These bioassays showed significant inhibition in lettuce and barnyard growth after UV in both rice cultivars. Interestingly, Huajingxian, which did not exhibit allelopathic potential in absence of UV showed significant inhibition after UV exposure. Phenolics, enzymes activities and genes responsible for biosynthesis of allelopathic compounds were examined after UV exposure. Phenolic compounds accumulated in rice leaves were quantified through HPLC analysis. They were significantly higher in BR-41 leaves after UV exposure. Enzyme activities (PAL and C4H) were significantly higher after UV exposure. The relative transcripts of genes (OsPAL and OsCYC1) responsible for biosynthesis of allelopathic compounds were also significantly higher after UV exposure. These results suggest that enhanced UV-irradiation levels due to ozone depletion may increase rice allelopathic potentials on paddy weeds.",

keywords = "Allelopathy, Root exudates, Ultraviolet radiation, Phenylalanine ammonia-lyase, Rhizosphere soil",

author = "Khalid Mahmood and Khan, {Muhammad Bismillah} and Song, {Yuan Yuan} and Muhammad Ijaz and Luo, {Shi Ming} and Zeng, {Ren Sen}",

year = "2013",

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doi = "10.1007/s10725-013-9804-9",

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journal = "Plant Growth Regulation",

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T1 - UV-irradiation enhances rice allelopathic potential in rhizosphere soil

AU - Mahmood, Khalid

AU - Khan, Muhammad Bismillah

AU - Song, Yuan Yuan

AU - Ijaz, Muhammad

AU - Luo, Shi Ming

AU - Zeng, Ren Sen

PY - 2013/9

Y1 - 2013/9

N2 - Ultraviolet-B radiation is rising continuously due to stratospheric ozone depletion over temperate latitudes. This study investigated effects of UV exposure on rice allelopathic potentials. For this purpose, two rice (Oryza sativa L.) cultivars BR-41 (high allelopathic = able to inhibit neighboring plants in native environment) and Huajingxian (low allelopathic = not able to inhibit neighboring plants, which were suppressed by higher allelopathic plants) were exposed to UV. Rhizosphere soils and leaf leachates bioassay were used to evaluate allelopathic potentials against receiver plants (barnyard grass and lettuce). These bioassays showed significant inhibition in lettuce and barnyard growth after UV in both rice cultivars. Interestingly, Huajingxian, which did not exhibit allelopathic potential in absence of UV showed significant inhibition after UV exposure. Phenolics, enzymes activities and genes responsible for biosynthesis of allelopathic compounds were examined after UV exposure. Phenolic compounds accumulated in rice leaves were quantified through HPLC analysis. They were significantly higher in BR-41 leaves after UV exposure. Enzyme activities (PAL and C4H) were significantly higher after UV exposure. The relative transcripts of genes (OsPAL and OsCYC1) responsible for biosynthesis of allelopathic compounds were also significantly higher after UV exposure. These results suggest that enhanced UV-irradiation levels due to ozone depletion may increase rice allelopathic potentials on paddy weeds.

AB - Ultraviolet-B radiation is rising continuously due to stratospheric ozone depletion over temperate latitudes. This study investigated effects of UV exposure on rice allelopathic potentials. For this purpose, two rice (Oryza sativa L.) cultivars BR-41 (high allelopathic = able to inhibit neighboring plants in native environment) and Huajingxian (low allelopathic = not able to inhibit neighboring plants, which were suppressed by higher allelopathic plants) were exposed to UV. Rhizosphere soils and leaf leachates bioassay were used to evaluate allelopathic potentials against receiver plants (barnyard grass and lettuce). These bioassays showed significant inhibition in lettuce and barnyard growth after UV in both rice cultivars. Interestingly, Huajingxian, which did not exhibit allelopathic potential in absence of UV showed significant inhibition after UV exposure. Phenolics, enzymes activities and genes responsible for biosynthesis of allelopathic compounds were examined after UV exposure. Phenolic compounds accumulated in rice leaves were quantified through HPLC analysis. They were significantly higher in BR-41 leaves after UV exposure. Enzyme activities (PAL and C4H) were significantly higher after UV exposure. The relative transcripts of genes (OsPAL and OsCYC1) responsible for biosynthesis of allelopathic compounds were also significantly higher after UV exposure. These results suggest that enhanced UV-irradiation levels due to ozone depletion may increase rice allelopathic potentials on paddy weeds.

KW - Allelopathy

KW - Root exudates

KW - Ultraviolet radiation

KW - Phenylalanine ammonia-lyase

KW - Rhizosphere soil

U2 - 10.1007/s10725-013-9804-9

DO - 10.1007/s10725-013-9804-9

M3 - Journal article

SN - 0167-6903

VL - 71

SP - 21

EP - 29

JO - Plant Growth Regulation

JF - Plant Growth Regulation

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ER -