RESPONSE OF LISIANTHUS TO IRRIGATION WITH SALINE WATER: ION RELATIONS

Eustoma grandiflorum (Raf.) Shinn. (lisianthus) is a moderately salt tolerant species that can be produced commercially under irrigation with saline wastewaters prevalent in two salt-affected areas of California. The objective of the present studies was to determine the effect of irrigation with sal...

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Published in	Journal of plant nutrition Vol. 37; no. 4; pp. 546 - 561
Main Authors	Valdez-Aguilar, Luis A, Grieve, Catherine M, Poss, James A
Format	Journal Article
Language	English
Published	Philadelphia Taylor & Francis Group 21.03.2014 Taylor & Francis Ltd
Subjects	calcium cultivars cut flowers electrical conductivity Eustoma exaltatum subsp. russellianum Freshwater irrigation irrigation water leaves magnesium nutrient accumulation potassium river water saline water salinity salt tolerance seawater shoots sodium stress physiology wastewater water reuse Colorado River California USA, Colorado R USA, California
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Abstract	Eustoma grandiflorum (Raf.) Shinn. (lisianthus) is a moderately salt tolerant species that can be produced commercially under irrigation with saline wastewaters prevalent in two salt-affected areas of California. The objective of the present studies was to determine the effect of irrigation with saline waters of two different compositions on the ion accumulation and ion relations of lisianthus ‘Pure White’ and ‘Echo Blue’. The ionic composition of irrigation waters simulated the compositions typical of i) seawater dilutions (SWD) and ii) concentrations of Colorado River water (CCRW). Electrical conductivities (EC) of SWD and CCRW were between 2 and 12 dS · m ⁻¹. Plants irrigated with CCRW were higher in Ca ²⁺ compared to plants irrigated with SWD water. Calcium was also higher in ‘Pure White’ than in ‘Echo Blue’. Increasing EC of irrigation water caused a significant decrease in shoot and leaf Ca ²⁺ concentration in ‘Echo Blue’, but had no effect on Ca ²⁺ content of ‘Pure White’ shoots and leaves. Magnesium concentration in ‘Echo Blue’ was higher than in ‘Pure White’. Electrical conductivity did not significantly affect Mg ²⁺ concentration of either cultivar, despite the increasingly higher external concentration. Potassium concentration of young and mature leaves of ‘Echo Blue’ increased as EC increased from 2 to 8 dS · m ⁻¹, then decreased significantly once EC exceeded 8 dS · m ⁻¹. Potassium concentration of ‘Pure White’ leaves decreased over the range of salinity treatments tested, suggesting that the reduced potassium ion (K ⁺) activity at EC levels of 8 dS · m ⁻¹, or less, that resulted in lower leaf−K ⁺ in ‘Pure White’ did not cause a decrease in K ⁺ uptake in ‘Echo Blue’. Increases in external Na ⁺ caused a significant increase in Na ⁺ in ‘Pure White’ leaves and these plants exhibited the best growth even when levels of Na ⁺ were high enough to be considered detrimental for growth.
AbstractList	Eustoma grandiflorum (Raf.) Shinn. (lisianthus) is a moderately salt tolerant species that can be produced commercially under irrigation with saline wastewaters prevalent in two salt-affected areas of California. The objective of the present studies was to determine the effect of irrigation with saline waters of two different compositions on the ion accumulation and ion relations of lisianthus 'Pure White' and 'Echo Blue'. The ionic composition of irrigation waters simulated the compositions typical of i) seawater dilutions (SWD) and ii) concentrations of Colorado River water (CCRW). Electrical conductivities (EC) of SWD and CCRW were between 2 and 12 dS · m −1 . Plants irrigated with CCRW were higher in Ca 2+ compared to plants irrigated with SWD water. Calcium was also higher in 'Pure White' than in 'Echo Blue'. Increasing EC of irrigation water caused a significant decrease in shoot and leaf Ca 2+ concentration in 'Echo Blue', but had no effect on Ca 2+ content of 'Pure White' shoots and leaves. Magnesium concentration in 'Echo Blue' was higher than in 'Pure White'. Electrical conductivity did not significantly affect Mg 2+ concentration of either cultivar, despite the increasingly higher external concentration. Potassium concentration of young and mature leaves of 'Echo Blue' increased as EC increased from 2 to 8 dS · m −1 , then decreased significantly once EC exceeded 8 dS · m −1 . Potassium concentration of 'Pure White' leaves decreased over the range of salinity treatments tested, suggesting that the reduced potassium ion (K + ) activity at EC levels of 8 dS · m −1 , or less, that resulted in lower leaf−K + in 'Pure White' did not cause a decrease in K + uptake in 'Echo Blue'. Increases in external Na + caused a significant increase in Na + in 'Pure White' leaves and these plants exhibited the best growth even when levels of Na + were high enough to be considered detrimental for growth. Eustoma grandiflorum (Raf.) Shinn. (lisianthus) is a moderately salt tolerant species that can be produced commercially under irrigation with saline wastewaters prevalent in two salt-affected areas of California. The objective of the present studies was to determine the effect of irrigation with saline waters of two different compositions on the ion accumulation and ion relations of lisianthus 'Pure White' and 'Echo Blue'. The ionic composition of irrigation waters simulated the compositions typical of i) seawater dilutions (SWD) and ii) concentrations of Colorado River water (CCRW). Electrical conductivities (EC) of SWD and CCRW were between 2 and 12 dS · m-1. Plants irrigated with CCRW were higher in Ca2+ compared to plants irrigated with SWD water. Calcium was also higher in 'Pure White' than in 'Echo Blue'. Increasing EC of irrigation water caused a significant decrease in shoot and leaf Ca2+ concentration in 'Echo Blue', but had no effect on Ca2+ content of 'Pure White' shoots and leaves. Magnesium concentration in 'Echo Blue' was higher than in 'Pure White'. Electrical conductivity did not significantly affect Mg2+ concentration of either cultivar, despite the increasingly higher external concentration. Potassium concentration of young and mature leaves of 'Echo Blue' increased as EC increased from 2 to 8 dS · m-1, then decreased significantly once EC exceeded 8 dS · m-1. Potassium concentration of 'Pure White' leaves decreased over the range of salinity treatments tested, suggesting that the reduced potassium ion (K+) activity at EC levels of 8 dS · m-1, or less, that resulted in lower leaf-K+ in 'Pure White' did not cause a decrease in K+ uptake in 'Echo Blue'. Increases in external Na+ caused a significant increase in Na+ in 'Pure White' leaves and these plants exhibited the best growth even when levels of Na+ were high enough to be considered detrimental for growth. [PUBLICATION ABSTRACT] Eustoma grandiflorum (Raf.) Shinn. (lisianthus) is a moderately salt tolerant species that can be produced commercially under irrigation with saline wastewaters prevalent in two salt-affected areas of California. The objective of the present studies was to determine the effect of irrigation with saline waters of two different compositions on the ion accumulation and ion relations of lisianthus ‘Pure White’ and ‘Echo Blue’. The ionic composition of irrigation waters simulated the compositions typical of i) seawater dilutions (SWD) and ii) concentrations of Colorado River water (CCRW). Electrical conductivities (EC) of SWD and CCRW were between 2 and 12 dS · m ⁻¹. Plants irrigated with CCRW were higher in Ca ²⁺ compared to plants irrigated with SWD water. Calcium was also higher in ‘Pure White’ than in ‘Echo Blue’. Increasing EC of irrigation water caused a significant decrease in shoot and leaf Ca ²⁺ concentration in ‘Echo Blue’, but had no effect on Ca ²⁺ content of ‘Pure White’ shoots and leaves. Magnesium concentration in ‘Echo Blue’ was higher than in ‘Pure White’. Electrical conductivity did not significantly affect Mg ²⁺ concentration of either cultivar, despite the increasingly higher external concentration. Potassium concentration of young and mature leaves of ‘Echo Blue’ increased as EC increased from 2 to 8 dS · m ⁻¹, then decreased significantly once EC exceeded 8 dS · m ⁻¹. Potassium concentration of ‘Pure White’ leaves decreased over the range of salinity treatments tested, suggesting that the reduced potassium ion (K ⁺) activity at EC levels of 8 dS · m ⁻¹, or less, that resulted in lower leaf−K ⁺ in ‘Pure White’ did not cause a decrease in K ⁺ uptake in ‘Echo Blue’. Increases in external Na ⁺ caused a significant increase in Na ⁺ in ‘Pure White’ leaves and these plants exhibited the best growth even when levels of Na ⁺ were high enough to be considered detrimental for growth. Eustoma grandiflorum (Raf.) Shinn. (lisianthus) is a moderately salt tolerant species that can be produced commercially under irrigation with saline wastewaters prevalent in two salt-affected areas of California. The objective of the present studies was to determine the effect of irrigation with saline waters of two different compositions on the ion accumulation and ion relations of lisianthus 'Pure White' and 'Echo Blue'. The ionic composition of irrigation waters simulated the compositions typical of i) seawater dilutions (SWD) and ii) concentrations of Colorado River water (CCRW). Electrical conductivities (EC) of SWD and CCRW were between 2 and 12 dS . m super(-1). Plants irrigated with CCRW were higher in Ca super(2+) compared to plants irrigated with SWD water. Calcium was also higher in 'Pure White' than in 'Echo Blue'. Increasing EC of irrigation water caused a significant decrease in shoot and leaf Ca super(2+) concentration in 'Echo Blue', but had no effect on Ca super(2+) content of 'Pure White' shoots and leaves. Magnesium concentration in 'Echo Blue' was higher than in 'Pure White'. Electrical conductivity did not significantly affect Mg super(2+) concentration of either cultivar, despite the increasingly higher external concentration. Potassium concentration of young and mature leaves of 'Echo Blue' increased as EC increased from 2 to 8 dS . m super(-1), then decreased significantly once EC exceeded 8 dS . m super(-1). Potassium concentration of 'Pure White' leaves decreased over the range of salinity treatments tested, suggesting that the reduced potassium ion (K super(+)) activity at EC levels of 8 dS . m super(-1), or less, that resulted in lower leaf-K super(+) in 'Pure White' did not cause a decrease in K super(+) uptake in 'Echo Blue'. Increases in external Na super(+) caused a significant increase in Na super(+) in 'Pure White' leaves and these plants exhibited the best growth even when levels of Na super(+) were high enough to be considered detrimental for growth.
Author	Poss, James A Valdez-Aguilar, Luis A Grieve, Catherine M
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SubjectTerms	calcium cultivars cut flowers electrical conductivity Eustoma exaltatum subsp. russellianum Freshwater irrigation irrigation water leaves magnesium nutrient accumulation potassium river water saline water salinity salt tolerance seawater shoots sodium stress physiology wastewater water reuse
Title	RESPONSE OF LISIANTHUS TO IRRIGATION WITH SALINE WATER: ION RELATIONS
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