Dynamic change of salt contents in rhizosphere soil of salt-tolerant plants

Secondary salinization of soil is a major limiting factor for agricultural sustainability development in irrigated agriculture in arid and semi-arid regions. At present, the problem of soil salinity is further deteriorating in inland arid regions as the dry lands have become irrigated fields, which...

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Veröffentlicht in:	Sheng tai xue bao 2011-05, Vol.31 (10), p.2813-2821
Hauptverfasser:	Dong, L, Cao, J, Li, X, Dai, L, Su, Y
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Sprache:	chi ; eng
Schlagworte:	Helianthus Helianthus annuus Hordeum vulgare Medicago sativa Zygophyllum
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description	Secondary salinization of soil is a major limiting factor for agricultural sustainability development in irrigated agriculture in arid and semi-arid regions. At present, the problem of soil salinity is further deteriorating in inland arid regions as the dry lands have become irrigated fields, which caused the substantial rise of groundwater table. The majority of comparative studies suggested that phytoremediation (plant-assisted approach) is more effective in the amelioration process in recent years. Rhizosphere is an important interface in substance exchange and energy transformation between plants and soil. Affected by physiological activities of plant roots, there is a marked difference in physichemistry properties between the rhizosphere soil and bulk soil. Based on a calcareous salt-affected soil in the irrigated region of Qingwangchuan, Gansu, a rhizobag experiment was conducted on four salt-tolerant plants to investigate dynamic changes of pH, EC (Electrical Conductivity) and salt ions in the rhizosphere and bulk soil, and to compare the differences between them at the different plant growth stages. The results showed that pH, EC and concentrations of six major salt ions in four tested plants decreased with the extension of incubation days. There was significantly (P
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At present, the problem of soil salinity is further deteriorating in inland arid regions as the dry lands have become irrigated fields, which caused the substantial rise of groundwater table. The majority of comparative studies suggested that phytoremediation (plant-assisted approach) is more effective in the amelioration process in recent years. Rhizosphere is an important interface in substance exchange and energy transformation between plants and soil. Affected by physiological activities of plant roots, there is a marked difference in physichemistry properties between the rhizosphere soil and bulk soil. Based on a calcareous salt-affected soil in the irrigated region of Qingwangchuan, Gansu, a rhizobag experiment was conducted on four salt-tolerant plants to investigate dynamic changes of pH, EC (Electrical Conductivity) and salt ions in the rhizosphere and bulk soil, and to compare the differences between them at the different plant growth stages. The results showed that pH, EC and concentrations of six major salt ions in four tested plants decreased with the extension of incubation days. There was significantly (P<0.05) lower pH in rhizosphere soil than in corresponding bulk soil after 90-day growth periods for all tested plants, such as alfalfa (Medicago Sativa L. cv. Xinjiangdaye), sunflower (Helianthus annuus) and common beancaper (Zygophyllum xanthoxylum) except for barley (Hordeum vulgare var. vulgare). Soil EC was higher in rhizosphere soil than in bulk soil for common beancaper and alfalfa, but not for sunflower and barley. K super(+) concentrations reduced significantly in the rhizosphere of four tested plants, but other major salt ions in the rhizosphere soil of alfalfa, common beancaper and sunflower exhibited enrichment. However, Ca super(2+), Mg super(2+) and SO super(2) sub(4) super(-) concentrations increased in the rhizosphere of barley, whereas the other ions behaved in an opposite way. The Na super(+)/K super(+), Na super(+)/Ca super(2+) and Na super(+)/Mg super(2+) ratio showed a decrease trend with the extension of incubation days. The results indicated that the deficit of Na super(+) in the soil was more profound than those of K super(+), Ca super(2+) and Mg super(2+). In the present study, the main reasons which were responsible for the relative change of ions between rhizosphere and bulk soil might be the combination effects, namely effects of different ions were absorbed selectively by plant root and the amounts of soil mineral-salt compound can be mobilized by different rhizosphere processes. Besides, the rate of different salt moving to the rhizosphere also played a key role in this case. In addition, we should consider the distance between sampling site and plant rhizosphere at different plant growth stages as pH and salt contents in the saline soil were measured.</description><identifier>ISSN: 1000-0933</identifier><language>chi ; eng</language><subject>Helianthus ; Helianthus annuus ; Hordeum vulgare ; Medicago sativa ; Zygophyllum</subject><ispartof>Sheng tai xue bao, 2011-05, Vol.31 (10), p.2813-2821</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780</link.rule.ids></links><search><creatorcontrib>Dong, L</creatorcontrib><creatorcontrib>Cao, J</creatorcontrib><creatorcontrib>Li, X</creatorcontrib><creatorcontrib>Dai, L</creatorcontrib><creatorcontrib>Su, Y</creatorcontrib><title>Dynamic change of salt contents in rhizosphere soil of salt-tolerant plants</title><title>Sheng tai xue bao</title><description>Secondary salinization of soil is a major limiting factor for agricultural sustainability development in irrigated agriculture in arid and semi-arid regions. At present, the problem of soil salinity is further deteriorating in inland arid regions as the dry lands have become irrigated fields, which caused the substantial rise of groundwater table. The majority of comparative studies suggested that phytoremediation (plant-assisted approach) is more effective in the amelioration process in recent years. Rhizosphere is an important interface in substance exchange and energy transformation between plants and soil. Affected by physiological activities of plant roots, there is a marked difference in physichemistry properties between the rhizosphere soil and bulk soil. Based on a calcareous salt-affected soil in the irrigated region of Qingwangchuan, Gansu, a rhizobag experiment was conducted on four salt-tolerant plants to investigate dynamic changes of pH, EC (Electrical Conductivity) and salt ions in the rhizosphere and bulk soil, and to compare the differences between them at the different plant growth stages. The results showed that pH, EC and concentrations of six major salt ions in four tested plants decreased with the extension of incubation days. There was significantly (P<0.05) lower pH in rhizosphere soil than in corresponding bulk soil after 90-day growth periods for all tested plants, such as alfalfa (Medicago Sativa L. cv. Xinjiangdaye), sunflower (Helianthus annuus) and common beancaper (Zygophyllum xanthoxylum) except for barley (Hordeum vulgare var. vulgare). Soil EC was higher in rhizosphere soil than in bulk soil for common beancaper and alfalfa, but not for sunflower and barley. K super(+) concentrations reduced significantly in the rhizosphere of four tested plants, but other major salt ions in the rhizosphere soil of alfalfa, common beancaper and sunflower exhibited enrichment. However, Ca super(2+), Mg super(2+) and SO super(2) sub(4) super(-) concentrations increased in the rhizosphere of barley, whereas the other ions behaved in an opposite way. The Na super(+)/K super(+), Na super(+)/Ca super(2+) and Na super(+)/Mg super(2+) ratio showed a decrease trend with the extension of incubation days. The results indicated that the deficit of Na super(+) in the soil was more profound than those of K super(+), Ca super(2+) and Mg super(2+). In the present study, the main reasons which were responsible for the relative change of ions between rhizosphere and bulk soil might be the combination effects, namely effects of different ions were absorbed selectively by plant root and the amounts of soil mineral-salt compound can be mobilized by different rhizosphere processes. Besides, the rate of different salt moving to the rhizosphere also played a key role in this case. 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At present, the problem of soil salinity is further deteriorating in inland arid regions as the dry lands have become irrigated fields, which caused the substantial rise of groundwater table. The majority of comparative studies suggested that phytoremediation (plant-assisted approach) is more effective in the amelioration process in recent years. Rhizosphere is an important interface in substance exchange and energy transformation between plants and soil. Affected by physiological activities of plant roots, there is a marked difference in physichemistry properties between the rhizosphere soil and bulk soil. Based on a calcareous salt-affected soil in the irrigated region of Qingwangchuan, Gansu, a rhizobag experiment was conducted on four salt-tolerant plants to investigate dynamic changes of pH, EC (Electrical Conductivity) and salt ions in the rhizosphere and bulk soil, and to compare the differences between them at the different plant growth stages. The results showed that pH, EC and concentrations of six major salt ions in four tested plants decreased with the extension of incubation days. There was significantly (P<0.05) lower pH in rhizosphere soil than in corresponding bulk soil after 90-day growth periods for all tested plants, such as alfalfa (Medicago Sativa L. cv. Xinjiangdaye), sunflower (Helianthus annuus) and common beancaper (Zygophyllum xanthoxylum) except for barley (Hordeum vulgare var. vulgare). Soil EC was higher in rhizosphere soil than in bulk soil for common beancaper and alfalfa, but not for sunflower and barley. K super(+) concentrations reduced significantly in the rhizosphere of four tested plants, but other major salt ions in the rhizosphere soil of alfalfa, common beancaper and sunflower exhibited enrichment. However, Ca super(2+), Mg super(2+) and SO super(2) sub(4) super(-) concentrations increased in the rhizosphere of barley, whereas the other ions behaved in an opposite way. The Na super(+)/K super(+), Na super(+)/Ca super(2+) and Na super(+)/Mg super(2+) ratio showed a decrease trend with the extension of incubation days. The results indicated that the deficit of Na super(+) in the soil was more profound than those of K super(+), Ca super(2+) and Mg super(2+). In the present study, the main reasons which were responsible for the relative change of ions between rhizosphere and bulk soil might be the combination effects, namely effects of different ions were absorbed selectively by plant root and the amounts of soil mineral-salt compound can be mobilized by different rhizosphere processes. Besides, the rate of different salt moving to the rhizosphere also played a key role in this case. In addition, we should consider the distance between sampling site and plant rhizosphere at different plant growth stages as pH and salt contents in the saline soil were measured.</abstract><tpages>9</tpages></addata></record>
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subjects	Helianthus Helianthus annuus Hordeum vulgare Medicago sativa Zygophyllum
title	Dynamic change of salt contents in rhizosphere soil of salt-tolerant plants
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