4.7 Article

Anthropogenic land-use activities within watersheds reduce comammox activity and diversity in rivers

Journal

JOURNAL OF ENVIRONMENTAL MANAGEMENT
Volume 338, Issue -, Pages -

Publisher

ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jenvman.2023.117841

Keywords

Land use change; Urbanization; Agriculture; Ammonia oxidization; Comammox; Activity

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Nitrogen cycling is vital for maintaining river ecological functions, but is threatened by human activities. The newly discovered comammox provides insights into the ecological effects of nitrogen by directly oxidizing ammonia to nitrate. This study examined how land use practices affect the activity and contribution of different ammonia oxidizers in North China. The results showed that comammox dominated nitrification in less disturbed basins, while AOB became the major player in highly developed basins. Increasing anthropogenic land use activities decreased the diversity of comammox communities and simplified the comammox network. NH4+-N, pH, and C/N were found to be crucial drivers of AOB and comammox distribution and activity. These findings shed light on aquatic-terrestrial linkages and can be applied to watershed land use management.
Nitrogen cycling plays a key role in maintaining river ecological functions which are threatened by anthropogenic activities. The newly discovered complete ammonia oxidation, comammox, provides novel insights into the ecological effects of nitrogen on that it oxidizes ammonia directly to nitrate without releasing nitrite as canonical ammonia oxidization conducted by AOA or AOB which is believed to play an important role in greenhouse gas generation. Theoretically, contribution of commamox, AOA and AOB to ammonia oxidization in rivers might be impacted by anthropogenic land-use activities through alterations in flow regime and nutrient input. While how land use pattern affects comammox and other canonical ammonia oxidizers remains elusive. In this study, we examined the ecological effects of land use practices on the activity and contribution of three distinctive groups of ammonia oxidizers (AOA, AOB, comammox) as well as the composition of comammox bacterial communities from 15 subbasins covering an area of 6166 km2 in North China. The results showed that comammox dominated nitrification (55.71%-81.21%) in less disturbed basins characterized by extensive forests and grassland, while AOB became the major player (53.83%-76.43%) in highly developed basins with drastic urban and agricultural development. In addition, increasing anthropogenic land use activities within the watershed lowered the alpha diversity of comammox communities and simplified the comammox network. Additionally, the alterations of NH4+-N, pH and C/N induced by land use change were found to be crucial drivers in determining the distribution and activity of AOB and comammox. Together, our findings cast a new light on aquatic-terrestrial linkages from the view of microorganism-mediated nitrogen cycling and can further be applied to target watershed land use management.

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