Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet Plateau

Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet Plateau

Background Ammonium (NH4+) and nitrate (NO3−) are two inorganic forms of nitrogen (N) that are deposited from the atmosphere into soil systems. As the substrate and product of soil nitrification, these two forms of inorganic nitrogen will affect or be affected by the soil net nitrification rate (Nr)...

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Main Authors: Jingjing Li, Chao Yang, Xiaoli Liu, Hanzhong Ji, Xinqing Shao
Format: Article
Language:English
Published: PeerJ Inc. 2020-01-01
Series:PeerJ
Subjects:
Soil aggregate
Alpine meadow
Soil nitrification
Inorganic nitrogen deposition
Soil porosity
Online Access:https://peerj.com/articles/8230.pdf
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spelling doaj-407ab83851294571a9d1740cb3b38b352020-11-25T00:51:40ZengPeerJ Inc.PeerJ2167-83592020-01-018e823010.7717/peerj.8230Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet PlateauJingjing Li0Chao Yang1Xiaoli Liu2Hanzhong Ji3Xinqing Shao4College of Grassland Science and Technology, China Agricultural University, Beijing, ChinaGrassland Agri-Husbandry Research Center, College of Grassland Science, Qingdao Agricultural University, Qingdao, ChinaCollege of Grassland Science and Technology, China Agricultural University, Beijing, ChinaInstitute of Haibei Tibetan Autonomous Prefecture Animal Husbandry and Veterinary Science, Xining, ChinaCollege of Grassland Science and Technology, China Agricultural University, Beijing, ChinaBackground Ammonium (NH4+) and nitrate (NO3−) are two inorganic forms of nitrogen (N) that are deposited from the atmosphere into soil systems. As the substrate and product of soil nitrification, these two forms of inorganic nitrogen will affect or be affected by the soil net nitrification rate (Nr). Our knowledge regarding soil nitrification is mainly derived from studies with bulk soil. However, soil is composed of different aggregate fractions, which may have an important impact on Nr. Methods In 2017, we collected soil samples from an alpine meadow of the Qinghai–Tibet Plateau and separated them into four soil aggregates (2–4, 1–2, 0.25–1, and <0.25 mm) using the dry sieving method. The four soil aggregate sizes amended with the 2 N deposition forms (NH4+-N and NO3−-N) were then incubated at 25 °C for 28 days, and the soil aggregates for each treatment were collected on day 0, 7, 14, 21, and 28 to determine the NO3−-N concentration. The soil Nr and contribution of soil aggregates to the nitrification rate in the bulk soil were calculated. Results There were differences in the physicochemical properties of the soil aggregates. The addition of N and aggregate size had strong effects on soil Nr, which were significantly increased under high levels of NH4+ addition across all soil aggregates. The Nr during the 4 week incubation period differed among aggregate sizes. Nr in the 2–4 mm aggregates was higher than in the other aggregates, which was correlated with the maximum values of the soil porosity observed in the 2–4 mm aggregates. Furthermore, almost half of the soil was composed of aggregates of <0.25 mm, indicating that the <0.25 mm aggregates made a higher contribution to the nitrification rate in the bulk soil than the other aggregates, even though these aggregates had a lower nitrification ability. Overall, our study revealed that the soil nitrification rate was influenced by both the N addition and soil aggregates, and that the 2–4 mm aggregates had a dominant effect on the response of soil N transformation processes to future nitrogen deposition in the alpine meadow.https://peerj.com/articles/8230.pdfSoil aggregateAlpine meadowSoil nitrificationInorganic nitrogen depositionSoil porosity
collection DOAJ
language English
format Article
sources DOAJ
author Jingjing Li
Chao Yang
Xiaoli Liu
Hanzhong Ji
Xinqing Shao
spellingShingle Jingjing Li
Chao Yang
Xiaoli Liu
Hanzhong Ji
Xinqing Shao
Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet Plateau
PeerJ
Soil aggregate
Alpine meadow
Soil nitrification
Inorganic nitrogen deposition
Soil porosity
author_facet Jingjing Li
Chao Yang
Xiaoli Liu
Hanzhong Ji
Xinqing Shao
author_sort Jingjing Li
title Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet Plateau
title_short Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet Plateau
title_full Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet Plateau
title_fullStr Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet Plateau
title_full_unstemmed Soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the Qinghai–Tibet Plateau
title_sort soil aggregate size influences the impact of inorganic nitrogen deposition on soil nitrification in an alpine meadow of the qinghai–tibet plateau
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2020-01-01
description Background Ammonium (NH4+) and nitrate (NO3−) are two inorganic forms of nitrogen (N) that are deposited from the atmosphere into soil systems. As the substrate and product of soil nitrification, these two forms of inorganic nitrogen will affect or be affected by the soil net nitrification rate (Nr). Our knowledge regarding soil nitrification is mainly derived from studies with bulk soil. However, soil is composed of different aggregate fractions, which may have an important impact on Nr. Methods In 2017, we collected soil samples from an alpine meadow of the Qinghai–Tibet Plateau and separated them into four soil aggregates (2–4, 1–2, 0.25–1, and <0.25 mm) using the dry sieving method. The four soil aggregate sizes amended with the 2 N deposition forms (NH4+-N and NO3−-N) were then incubated at 25 °C for 28 days, and the soil aggregates for each treatment were collected on day 0, 7, 14, 21, and 28 to determine the NO3−-N concentration. The soil Nr and contribution of soil aggregates to the nitrification rate in the bulk soil were calculated. Results There were differences in the physicochemical properties of the soil aggregates. The addition of N and aggregate size had strong effects on soil Nr, which were significantly increased under high levels of NH4+ addition across all soil aggregates. The Nr during the 4 week incubation period differed among aggregate sizes. Nr in the 2–4 mm aggregates was higher than in the other aggregates, which was correlated with the maximum values of the soil porosity observed in the 2–4 mm aggregates. Furthermore, almost half of the soil was composed of aggregates of <0.25 mm, indicating that the <0.25 mm aggregates made a higher contribution to the nitrification rate in the bulk soil than the other aggregates, even though these aggregates had a lower nitrification ability. Overall, our study revealed that the soil nitrification rate was influenced by both the N addition and soil aggregates, and that the 2–4 mm aggregates had a dominant effect on the response of soil N transformation processes to future nitrogen deposition in the alpine meadow.
topic Soil aggregate
Alpine meadow
Soil nitrification
Inorganic nitrogen deposition
Soil porosity
url https://peerj.com/articles/8230.pdf
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AT xiaoliliu soilaggregatesizeinfluencestheimpactofinorganicnitrogendepositiononsoilnitrificationinanalpinemeadowoftheqinghaitibetplateau
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