Response of Soil Respiration to Simulated Acid Rain with Different Ratios of in Cunninghamia lanceolata (Lamb.) Hook. and Michelia macclurei Dandy Plantations

Acid rain is one of the most serious environmental issues in Southern China. The composition of acid rain has gradually changed from sulfuric acid rain (SAR) to nitric acid rain (NAR) due to the rapid development of industry, and controls on SO2 emissions. However, a comprehensive understanding of h...

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Published in:Forests 2022-11, Vol.13 (11), p.1915
Main Authors: Jiao Wang, Qingpeng Yang, Weidong Zhang, Longchi Chen, Xin Guan, Ke Huang, Renshan Li, Wenhui Zheng, Qingkui Wang, Silong Wang
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<named-content content-type="inline"> <mml:math id="mm27522453"> SO 4 2 − </mml:math> / <mml:math id="mm444522"> NO 3 − </mml:math> </named-content> ratio
heterotrophic respiration
plantation
simulated acid rain
temperature sensitivity
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Qingpeng Yang
Weidong Zhang
Longchi Chen
Xin Guan
Ke Huang
Renshan Li
Wenhui Zheng
Qingkui Wang
Silong Wang
description Acid rain is one of the most serious environmental issues in Southern China. The composition of acid rain has gradually changed from sulfuric acid rain (SAR) to nitric acid rain (NAR) due to the rapid development of industry, and controls on SO2 emissions. However, a comprehensive understanding of how changes in the type of acid rain affect soil respiration (Rs) in forest ecosystems is still lacking. In this study, we investigated the influence of simulated acid rain with different SO42− / NO3− ratios, namely, SAR (4:1), MAR (mixed acid rain, 1:1), and NAR (1:4), on Rs in Cunninghamia lanceolata (Lamb.) Hook. (CL) and Michelia macclurei Dandy (MM) plantations from 2019 to 2020. A trenching method was used to partition Rs into heterotrophic respiration (Rh) and autotrophic respiration (Ra). The results showed that acid rain did not significantly influence Rs in the two plantations, which could be mainly attributed to the unchanged soil pH. Neither SAR, MAR, nor NAR affected Ra in the two plantations, possibly due to the unchanged root biomass. The SAR treatment only significantly increased Rh in the MM plantation, not in the CL plantation. The temperature sensitivity (Q10) of Rs and its components was not significantly different among different acid rain types in either of the plantations. Our results suggest that the impact of acid rain on Rs and its components depends on the forest ecosystem and the type of acid rain. Different biological processes complicate the response of soil CO2 emissions to acid rain pollution.
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In this study, we investigated the influence of simulated acid rain with different SO42− / NO3− ratios, namely, SAR (4:1), MAR (mixed acid rain, 1:1), and NAR (1:4), on Rs in Cunninghamia lanceolata (Lamb.) Hook. (CL) and Michelia macclurei Dandy (MM) plantations from 2019 to 2020. A trenching method was used to partition Rs into heterotrophic respiration (Rh) and autotrophic respiration (Ra). The results showed that acid rain did not significantly influence Rs in the two plantations, which could be mainly attributed to the unchanged soil pH. Neither SAR, MAR, nor NAR affected Ra in the two plantations, possibly due to the unchanged root biomass. The SAR treatment only significantly increased Rh in the MM plantation, not in the CL plantation. The temperature sensitivity (Q10) of Rs and its components was not significantly different among different acid rain types in either of the plantations. 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A trenching method was used to partition Rs into heterotrophic respiration (Rh) and autotrophic respiration (Ra). The results showed that acid rain did not significantly influence Rs in the two plantations, which could be mainly attributed to the unchanged soil pH. Neither SAR, MAR, nor NAR affected Ra in the two plantations, possibly due to the unchanged root biomass. The SAR treatment only significantly increased Rh in the MM plantation, not in the CL plantation. The temperature sensitivity (Q10) of Rs and its components was not significantly different among different acid rain types in either of the plantations. Our results suggest that the impact of acid rain on Rs and its components depends on the forest ecosystem and the type of acid rain. Different biological processes complicate the response of soil CO2 emissions to acid rain pollution.</abstract><pub>MDPI AG</pub><doi>10.3390/f13111915</doi><oa>free_for_read</oa></addata></record>
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heterotrophic respiration
plantation
simulated acid rain
temperature sensitivity
title Response of Soil Respiration to Simulated Acid Rain with Different Ratios of in Cunninghamia lanceolata (Lamb.) Hook. and Michelia macclurei Dandy Plantations
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