Acid rain induced leakage of Ca, Mg, Zn, Fe from plant photosynthetic organs – Testing for deciduous and dicotyledons
Simulated acid rains (AR), (pH 3.0, 3.5, 4.0, 4.5, 5.0, 5.5) were applied to green leaves of 13 deciduous trees (DT) and 10 species of dicotyledonous plants (DP). All were incubated at 23 °C within a growth chamber for 72 h. After the contact time, the leachates were analyzfor pH and next mineral el...
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Autores principales: | , , , , , , , , , |
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Formato: | article |
Lenguaje: | EN |
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Elsevier
2021
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Materias: | |
Acceso en línea: | https://doaj.org/article/21dc0eed5f0b4963a7d4e4bd87a5e2e4 |
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Sumario: | Simulated acid rains (AR), (pH 3.0, 3.5, 4.0, 4.5, 5.0, 5.5) were applied to green leaves of 13 deciduous trees (DT) and 10 species of dicotyledonous plants (DP). All were incubated at 23 °C within a growth chamber for 72 h. After the contact time, the leachates were analyzfor pH and next mineral elements: Ca, Mg, Fe, Zn. Total leaf concentrations of Ca and Mg have exhibited different relationships with Mg(DT) = 6.85Ca(DT)0.566, R2 = 0.64 and Mg(DP) = 0.079Ca(DP) + 318.8, R2 = 0.41. Leakage process revealed that intra-species variation for DT follows: Mg (107.3%) > Ca (106.0%) > Zn (90.3%) > Fe (59.8%), implying that the leaking effect was much more pronounced for alkaline elements (Ca, Mg). Dicotyledonous plants (DP), displayed a similar pattern but less varied: Mg (78.7%) > Ca (75.6%) > Zn (66.5%) > Fe (55.8%). The elaborated mineral photosynthetic index (MPI), [Mg/(Zn + Fe)] revealed that 77% of deciduous species represented very low to intermediate photosynthetic recovery, meaning that highly acid rain impacted trees will be surviving less or none. High DT survivors should be maple, linden and hornbeam. Dicotyledonous plants (DP) covered 70% of high to very high survival feature, where cucumber, cabbage and daisy prevailed.We stipulate that regreening of zones endangered by acid rains or planning green urban spaces should consider tree species with much more higher Ca concentrations in leaves. Both Ca2+ and Mg2+ intracellular hydrolysis appears as an efficient buffer inactivating acidity. |
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