--- /dev/null
+[[!meta title="Global ecological and biogeochemical impacts of pelagic tunicates"]]
+[[!tag Oikopleura]]
+
+Jessica Y Luo, Charles A. Stock, Natasha Henschke, John P. Dunne and Todd D. O'Brien
+
+Progress in Oceanography Volume 205, July 2022, 102822
+
+Global ecological and biogeochemical impacts of pelagic tunicates
+
+[[!doi 10.1016_j.pocean.2022.102822 desc="“Our results suggest that pelagic tunicates play important trophic roles in both directly competing with microzooplankton and indirectly shunting carbon export away from the microbial loop.”"]]
+++ /dev/null
-[[!meta title="Global ecological and biogeochemical impacts of pelagic tunicates"]]
-[[!tag bioRxiv]]
-
-Jessica Y Luo, Charles A. Stock, Natasha Henschke, John P. Dunne and Todd D. O'Brien
-
-Posted March 04, 2022.
-
-Global ecological and biogeochemical impacts of pelagic tunicates
-
-[[!doi 10.1101/2022.03.01.482560 desc="“Our results suggest that pelagic tunicates play important trophic roles in both directly competing with microzooplankton and indirectly shunting carbon export away from the microbial loop.”"]]
- The ecological role of appendicularians was reviewed by [[Jaspers and coll,
2023|biblio/37277269]].
+ - Luo and coll. [[(2022)|biblio/10.1016_j.pocean.2022.102822]] reported that
+ pelagic tunicates indirectly shunt the microbial loop.
- _O. dioica_ grazes on bacterioplankton, which can be a significant share
of its own diet, but the grazing has only “minimal influence on the
population dynamics of the free-living bacteria” ([[King, Hollibaugh and
projects / source / .git / commitdiff