Monitoring the temporal variations of plant stress using the air pollution tolerance index in the Sejzi industrial area (Isfahan, Iran)

The objective of this study was to screen air pollution-induced stress in some plant species in the Sejzi industrial region (Isfahan, Iran). An assessment of APTI and other physiological and biochemical features of significant species in the area was conducted across three seasons: spring, summer, a...

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Veröffentlicht in:	Environmental science and pollution research international 2024-10, Vol.31 (48), p.58375-58395
Hauptverfasser:	Yazdani, Moslem, Karimzadeh, Hamidreza, Azimzadeh, Hamidreza, Soleimani, Mohsen
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Schlagworte:	Acidity Air monitoring Air pollution Annual variations Aquatic Pollution Ascorbic acid Atmospheric Protection/Air Quality Control/Air Pollution Autumn Biochemistry Biomonitors Chlorophyll Earth and Environmental Science Ecotoxicology Environment Environmental Chemistry Environmental Health Evaluation Flowers & plants Humidity Industrial areas Industrial pollution Lasioglossum persicum Physiological effects Physiological factors Physiology Plant species Plant stress Plants (botany) Pollution index Pollution tolerance Proline Prosopis farcta Relative humidity Research Article Seasons Species Spring Spring (season) Sugar Summer Temporal variations Waste Water Technology Water Management Water Pollution Control
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description	The objective of this study was to screen air pollution-induced stress in some plant species in the Sejzi industrial region (Isfahan, Iran). An assessment of APTI and other physiological and biochemical features of significant species in the area was conducted across three seasons: spring, summer, and autumn. The physiological and biochemical factors of the following species were evaluated: Limonium persicum , Atriplex lentiformis , Nitraria schoberi , Haloxylon persicum , Tamarix hispida , Zygophyllum atriplicoides , Karelinia caspica , and Prosopis farcta. The physiological factors assessed included acidity and relative humidity content, while the biochemical factors assessed included proline, sugar, ascorbic acid, and total chlorophyll. Subsequently, a thorough evaluation was carried out on the species under investigation to ascertain their biomonitors’ capabilities and APTI. The study findings indicated that the species P. farcta , N. schoberi , and K. caspica consistently had high APTI values during the spring, autumn, and summer seasons, classifying them as tolerant plant species. Conversely, the observed traits showed significant fluctuations across the seasons. The investigation’s findings indicate that the species L. persicum , N. schoberi , and K. caspica exhibit higher annual averages of chlorophyll a, chlorophyll b, total chlorophyll, and carotenoid compared to other species. The examination of the annual variation in the tolerance levels of plant species to pollution ranked from highest to lowest was as follows: N. schoberi , P. farcta , K. caspica , Z. atriplicoides , H. persicum , T. hispida , L. persicum , and A. lentiformis. Moreover, based on the annual average, the primary determinants that impact the APTI in the species being studied include ascorbic acid (35%), leaf acidity (19%), total chlorophyll content (35%), and relative humidity content (69%). Furthermore, a distinct and significant correlation was found between proline and sugar levels and the annual APTI values. Additionally, the species P. farcta had the highest API compared to other species. The study revealed the high potential of some plant species against air pollution induced stress which can be used in air and dust pollution management in the region.
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An assessment of APTI and other physiological and biochemical features of significant species in the area was conducted across three seasons: spring, summer, and autumn. The physiological and biochemical factors of the following species were evaluated: Limonium persicum , Atriplex lentiformis , Nitraria schoberi , Haloxylon persicum , Tamarix hispida , Zygophyllum atriplicoides , Karelinia caspica , and Prosopis farcta. The physiological factors assessed included acidity and relative humidity content, while the biochemical factors assessed included proline, sugar, ascorbic acid, and total chlorophyll. Subsequently, a thorough evaluation was carried out on the species under investigation to ascertain their biomonitors’ capabilities and APTI. The study findings indicated that the species P. farcta , N. schoberi , and K. caspica consistently had high APTI values during the spring, autumn, and summer seasons, classifying them as tolerant plant species. Conversely, the observed traits showed significant fluctuations across the seasons. The investigation’s findings indicate that the species L. persicum , N. schoberi , and K. caspica exhibit higher annual averages of chlorophyll a, chlorophyll b, total chlorophyll, and carotenoid compared to other species. The examination of the annual variation in the tolerance levels of plant species to pollution ranked from highest to lowest was as follows: N. schoberi , P. farcta , K. caspica , Z. atriplicoides , H. persicum , T. hispida , L. persicum , and A. lentiformis. Moreover, based on the annual average, the primary determinants that impact the APTI in the species being studied include ascorbic acid (35%), leaf acidity (19%), total chlorophyll content (35%), and relative humidity content (69%). Furthermore, a distinct and significant correlation was found between proline and sugar levels and the annual APTI values. 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An assessment of APTI and other physiological and biochemical features of significant species in the area was conducted across three seasons: spring, summer, and autumn. The physiological and biochemical factors of the following species were evaluated: Limonium persicum , Atriplex lentiformis , Nitraria schoberi , Haloxylon persicum , Tamarix hispida , Zygophyllum atriplicoides , Karelinia caspica , and Prosopis farcta. The physiological factors assessed included acidity and relative humidity content, while the biochemical factors assessed included proline, sugar, ascorbic acid, and total chlorophyll. Subsequently, a thorough evaluation was carried out on the species under investigation to ascertain their biomonitors’ capabilities and APTI. The study findings indicated that the species P. farcta , N. schoberi , and K. caspica consistently had high APTI values during the spring, autumn, and summer seasons, classifying them as tolerant plant species. Conversely, the observed traits showed significant fluctuations across the seasons. The investigation’s findings indicate that the species L. persicum , N. schoberi , and K. caspica exhibit higher annual averages of chlorophyll a, chlorophyll b, total chlorophyll, and carotenoid compared to other species. The examination of the annual variation in the tolerance levels of plant species to pollution ranked from highest to lowest was as follows: N. schoberi , P. farcta , K. caspica , Z. atriplicoides , H. persicum , T. hispida , L. persicum , and A. lentiformis. Moreover, based on the annual average, the primary determinants that impact the APTI in the species being studied include ascorbic acid (35%), leaf acidity (19%), total chlorophyll content (35%), and relative humidity content (69%). Furthermore, a distinct and significant correlation was found between proline and sugar levels and the annual APTI values. Additionally, the species P. farcta had the highest API compared to other species. The study revealed the high potential of some plant species against air pollution induced stress which can be used in air and dust pollution management in the region.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><pmid>39312111</pmid><doi>10.1007/s11356-024-35020-z</doi><tpages>21</tpages><orcidid>https://orcid.org/0000-0002-5383-6747</orcidid></addata></record>
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subjects	Acidity Air monitoring Air pollution Annual variations Aquatic Pollution Ascorbic acid Atmospheric Protection/Air Quality Control/Air Pollution Autumn Biochemistry Biomonitors Chlorophyll Earth and Environmental Science Ecotoxicology Environment Environmental Chemistry Environmental Health Evaluation Flowers & plants Humidity Industrial areas Industrial pollution Lasioglossum persicum Physiological effects Physiological factors Physiology Plant species Plant stress Plants (botany) Pollution index Pollution tolerance Proline Prosopis farcta Relative humidity Research Article Seasons Species Spring Spring (season) Sugar Summer Temporal variations Waste Water Technology Water Management Water Pollution Control
title	Monitoring the temporal variations of plant stress using the air pollution tolerance index in the Sejzi industrial area (Isfahan, Iran)
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