Morpho-physiological and anatomical character changes of rice under waterlogged and water-saturated acidic and high Fe content soil
Waterlogging is one of the limiting factors in crop cultivation. Moreover, high iron (Fe) content in acidic soils could also disturb plant growth. However, there is limited scientific information of morpho-physiological and anatomical responses of rice grown in waterlogged acidic soils with high F...
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Main Authors: | , , , |
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Format: | Article |
Language: | English |
Published: |
Penerbit Universiti Kebangsaan Malaysia
2020
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Online Access: | http://journalarticle.ukm.my/15937/1/7.pdf http://journalarticle.ukm.my/15937/ http://www.ukm.my/jsm/malay_journals/jilid49bil10_2020/KandunganJilid49Bil10_2020.html |
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Summary: | Waterlogging is one of the limiting factors in crop cultivation. Moreover, high iron (Fe) content in acidic soils could
also disturb plant growth. However, there is limited scientific information of morpho-physiological and anatomical
responses of rice grown in waterlogged acidic soils with high Fe. Therefore, the objective of the research was to
investigate the morpho-physiological and anatomical responses of rice to waterlogged and water-saturated soil
condition in acidic soil with high Fe. Morpho-physiological and anatomical characters of rice were evaluated. The
results showed that the waterlogging in acidic and high Fe content soil disturbed the rice growth as indicated by the
change of morpho-physiological and anatomical characters. The water-saturated soil showed better condition for rice
cultivation than that of waterlogging. The plant biomass, root anatomical, lipid peroxidation level, Fe absorption, and
leaf gas exchange parameter could be evidences of changes in rice under both conditions. Based on the waterlogging
tolerance coefficient (WTC), we proposed shoot and root dry weight, cortex thickness, and Fe content in shoot as
screening tools for waterlogging tolerance of rice in acidic and high Fe content soil. The finding offers insight about
waterlogged condition in acidic and high Fe soil could be restored in crop cultivation. |
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