Liu, Li, Chen, Mingming, Wan, Xianhui S., Du, Chuanjun, Liu, Zhiyu, Hu, Zhendong, Jiang, Zong-Pei, Zhou, Kuanbo, Lin, Hongyang, Shen, Hui, Zhao, Duo, Yuan, Lanying, Hou, Lei, Yang, Jin-Yu T., Li, Xiaolin, Kao, Shuh-Ji, Zakem, Emily J., Qin, Wei, Dai, Minhan, Zhang, Yao

Published in Science Advances, August 2023

Nitrite, an intermediate product of the oxidation of ammonia to nitrate (nitrification), accumulates in upper oceans, forming the primary nitrite maximum (PNM). Nitrite concentrations in the PNM are relatively low in the western North Pacific subtropical gyre (wNPSG), where eddies are frequent and intense. To explain these low nitrite concentrations, we investigated nitrification in cyclonic eddies in the wNPSG. We detected relatively low half-saturation constants (i.e., high substrate affinities) for ammonia and nitrite oxidation at 150 to 200 meter water depth. Eddy-induced displacement of high-affinity nitrifiers and increased substrate supply enhanced ammonia and nitrite oxidation, depleting ambient substrate concentrations in the euphotic zone. Nitrite oxidation is more strongly enhanced by the cyclonic eddies than ammonia oxidation, reducing concentrations and accelerating the turnover of nitrite in the PNM. These findings demonstrate a spatial decoupling of the two steps of nitrification in response to mesoscale processes and provide insights into physical-ecological controls on the PNM.

Li Liu et al. Reduced nitrite accumulation at the primary nitrite maximum in the cyclonic eddies in the western North Pacific subtropical gyre.Sci. Adv.9, eade2078 (2023). DOI:10.1126/sciadv.ade2078