East‐West Variabilities of N <sub>2</sub> Fixation Activity in the Subtropical North Pacific Ocean in Summer: Potential Field Evidence of the Phosphorus and Iron Co‐Limitation in the Western Area
Sachiko Horii, Kazutaka Takahashi, Takuhei Shiozaki, Shigenobu Takeda, M. Sato, Takenori Yamaguchi, Shota Takino, Fuminori Hashihama, Yoshiko Kondo, Toshihiko Takemura, Ken Furuya
Abstract
Abstract In the subtropical North Pacific, the east‐west gradient of iron deposition as atmospheric Asian dust strongly affects the zonal distribution of biological N 2 fixation activity in numerical models, but the in‐situ relationship at a basin‐scale is not well examined. We examined the trans‐Pacific zonal variation in N 2 fixation activity on 23°N in summer along with environmental parameters that potentially influence diazotrophy. Dissolved inorganic iron (DFe) was consistently low (<0.4 nM) throughout the transect. The atmospheric dust iron (dust‐Fe) flux increased westward, whereas phosphate and labile phosphoric monoesters in the surface decreased westward. N 2 fixation varied between 34.6 and 298 μmol‐N m −2 d −1 and was high (>200 μmol‐N m −2 d −1 ) in the central area (150–180°W). N 2 fixation rates significantly increased with dust‐Fe input only in the western area (137–180°E), whereas the contribution of DFe diffused from below the euphotic zone was often larger in the eastern area (120–170°W). N 2 fixation was considerably low in the phosphate‐depleted western area despite the excess amount of iron relative to phosphate, and it increased with the labile phosphoric monoesters stock. These indicated that N 2 fixation was primarily limited by phosphorus in the western area, though this activity also increased with iron supply from dust, likely due to phosphorus‐iron co‐limitation. In contrast, in the phosphorus‐repleted eastern area, iron supplied from dust and below the euphotic zone appeared to limit N 2 fixation. Overall, N 2 fixation in the subtropical North Pacific was likely limited by zonally different factors relating to iron and phosphorus availability.