Overhead-irrigation with saline and alkaline water: Deleterious effects on foliage of Rhodes grass and leucaena

•Irrigation of saline water on plant foliage causes a direct reduction in growth.•Differences in tolerance were observed between plant species.•Growing conditions influenced the magnitude of the deleterious effects.•Alkalinity was not observed to reduce growth of foliage in any treatment. Saline and...

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Published inAgricultural water management Vol. 169; pp. 173 - 182
Main Authors Cicchelli, Federico D.F., Wehr, J. Bernhard, Dalzell, Scott A., Li, Cui, Menzies, Neal W., Kopittke, Peter M.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2016
Subjects
Calcium carbonate
Chloris gayana
Chlorophyll fluorescence
Chlorophylls
Fluorescence
Foliage
Grasses
Leaf morphology
Leucaena
Leucaena leucocephala
Plant growth
Power plants
Saline
Toxicity
Chlorophyll fluorescence
Leaf morphology
Plant growth
Toxicity
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Abstract •Irrigation of saline water on plant foliage causes a direct reduction in growth.•Differences in tolerance were observed between plant species.•Growing conditions influenced the magnitude of the deleterious effects.•Alkalinity was not observed to reduce growth of foliage in any treatment. Saline and alkaline water represents a potentially valuable resource provided its irrigation does not decrease plant growth. Although the adverse effects of salts within the rooting environment are well-studied, comparatively little is known regarding the direct effects of overhead-irrigation of saline and alkaline water on plant foliage. The present study examined the potential deleterious effects of saline (electrical conductivity, EC, ≤15dSm−1) and alkaline (≤2000mgL−1, CaCO3 equivalent) water on foliage of Rhodes grass (Chloris gayana cv. Reclaimer) and leucaena (Leucaena leucocephala ssp. glabrata cv. Tarramba) under a range of growing-conditions. Foliage of leucaena was sensitive, with necrosis and chlorosis evident for saline water at an EC ≥3dSm−1 and alkaline water containing ≥500mgL−1 (CaCO3 equivalent). For leucaena, this damage to the foliage reduced relative shoot fresh mass and chlorophyll fluorescence for saline-treatments, but alkalinity did not reduce relative shoot fresh mass or chlorophyll fluorescence in any treatment. In contrast to leucaena, relative shoot fresh mass of Rhodes grass was not reduced by foliar-applied salinity in any treatment (nor did alkalinity reduce growth of Rhodes grass). It was noted that growing conditions influenced the magnitude of the deleterious effects, with salinization of the soil slightly increasing tolerance to foliar-applied saline water for leucaena. This study has demonstrated that whilst saline and alkaline water can potentially be used for overhead irrigation, differences in observed tolerance exist between plant species, and are influenced by growing conditions.
AbstractList Saline and alkaline water represents a potentially valuable resource provided its irrigation does not decrease plant growth. Although the adverse effects of salts within the rooting environment are well-studied, comparatively little is known regarding the direct effects of overhead-irrigation of saline and alkaline water on plant foliage. The present study examined the potential deleterious effects of saline (electrical conductivity, EC, less than or equal to 15dSm-1) and alkaline ( less than or equal to 2000mgL-1, CaCO3 equivalent) water on foliage of Rhodes grass (Chloris gayana cv. Reclaimer) and leucaena (Leucaena leucocephala ssp. glabrata cv. Tarramba) under a range of growing-conditions. Foliage of leucaena was sensitive, with necrosis and chlorosis evident for saline water at an EC greater than or equal to 3dSm-1 and alkaline water containing greater than or equal to 500mgL-1 (CaCO3 equivalent). For leucaena, this damage to the foliage reduced relative shoot fresh mass and chlorophyll fluorescence for saline-treatments, but alkalinity did not reduce relative shoot fresh mass or chlorophyll fluorescence in any treatment. In contrast to leucaena, relative shoot fresh mass of Rhodes grass was not reduced by foliar-applied salinity in any treatment (nor did alkalinity reduce growth of Rhodes grass). It was noted that growing conditions influenced the magnitude of the deleterious effects, with salinization of the soil slightly increasing tolerance to foliar-applied saline water for leucaena. This study has demonstrated that whilst saline and alkaline water can potentially be used for overhead irrigation, differences in observed tolerance exist between plant species, and are influenced by growing conditions.
•Irrigation of saline water on plant foliage causes a direct reduction in growth.•Differences in tolerance were observed between plant species.•Growing conditions influenced the magnitude of the deleterious effects.•Alkalinity was not observed to reduce growth of foliage in any treatment. Saline and alkaline water represents a potentially valuable resource provided its irrigation does not decrease plant growth. Although the adverse effects of salts within the rooting environment are well-studied, comparatively little is known regarding the direct effects of overhead-irrigation of saline and alkaline water on plant foliage. The present study examined the potential deleterious effects of saline (electrical conductivity, EC, ≤15dSm−1) and alkaline (≤2000mgL−1, CaCO3 equivalent) water on foliage of Rhodes grass (Chloris gayana cv. Reclaimer) and leucaena (Leucaena leucocephala ssp. glabrata cv. Tarramba) under a range of growing-conditions. Foliage of leucaena was sensitive, with necrosis and chlorosis evident for saline water at an EC ≥3dSm−1 and alkaline water containing ≥500mgL−1 (CaCO3 equivalent). For leucaena, this damage to the foliage reduced relative shoot fresh mass and chlorophyll fluorescence for saline-treatments, but alkalinity did not reduce relative shoot fresh mass or chlorophyll fluorescence in any treatment. In contrast to leucaena, relative shoot fresh mass of Rhodes grass was not reduced by foliar-applied salinity in any treatment (nor did alkalinity reduce growth of Rhodes grass). It was noted that growing conditions influenced the magnitude of the deleterious effects, with salinization of the soil slightly increasing tolerance to foliar-applied saline water for leucaena. This study has demonstrated that whilst saline and alkaline water can potentially be used for overhead irrigation, differences in observed tolerance exist between plant species, and are influenced by growing conditions.
Author Menzies, Neal W.
Dalzell, Scott A.
Kopittke, Peter M.
Li, Cui
Cicchelli, Federico D.F.
Wehr, J. Bernhard
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  email: p.kopittke@uq.edu.au
  organization: The University of Queensland, School of Agriculture and Food Sciences, St Lucia, Queensland 4072, Australia
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Snippet •Irrigation of saline water on plant foliage causes a direct reduction in growth.•Differences in tolerance were observed between plant species.•Growing...
Saline and alkaline water represents a potentially valuable resource provided its irrigation does not decrease plant growth. Although the adverse effects of...
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SubjectTerms Calcium carbonate
Chloris gayana
Chlorophyll fluorescence
Chlorophylls
Fluorescence
Foliage
Grasses
Leaf morphology
Leucaena
Leucaena leucocephala
Plant growth
Power plants
Saline
Toxicity
Title Overhead-irrigation with saline and alkaline water: Deleterious effects on foliage of Rhodes grass and leucaena
URI https://dx.doi.org/10.1016/j.agwat.2016.03.002
https://search.proquest.com/docview/1785249739
https://search.proquest.com/docview/1808108375
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