TY  - JOUR
A1  - Tang, Kam W.
A1  - Backhaus, Liv
A1  - Riemann, Lasse
A1  - Koski, Marja
A1  - Grossart, Hans-Peter
A1  - Munk, Peter
A1  - Nielsen, Torkel Gissel
T1  - Copepod carcasses in the subtropical convergence zone of the Sargasso Sea
BT  - implications for microbial community composition, system respiration and carbon flux
JF  - Journal of plankton research
N2  - The oligotrophic subtropical gyre covers a vast area of the Atlantic Ocean. Decades of time-series monitoring have generated detailed temporal information about zooplankton species and abundances at fixed locations within the gyre, but their live/dead status is often omitted, especially in the dynamic subtropical convergence zone (STCZ) where the water column stratification pattern can change considerably across the front as warm and cold water masses converge. We conducted a detailed survey in the North Atlantic STCZ and showed that over 85% of the copepods were typically concentrated in the upper 200 m. Copepod carcasses were present in all samples and their proportional numerical abundances increased with depth, reaching up to 91% at 300-400 m. Overall, 14-19% of the copepods within the upper 200 m were carcasses. Shipboard experiments showed that during carcass decomposition, microbial respiration increased, and the bacterial community associated with the carcasses diverged from that in the ambient water. Combining field and experimental data, we estimated that decomposing copepod carcasses constitute a negligible oxygen sink in the STCZ, but sinking carcasses may represent an overlooked portion of the passive carbon sinking flux and should be incorporated in future studies of carbon flux in this area.
KW  - Sargasso Sea
KW  - subtropical convergence zone
KW  - zooplankton
KW  - carcasses
KW  - carbon sinking flux
Y1  - 2019
U6  - https://doi.org/10.1093/plankt/fbz038
SN  - 0142-7873
SN  - 1464-3774
VL  - 41
IS  - 4
SP  - 549
EP  - 560
PB  - Oxford Univ. Press
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Glud, Ronnie N.
A1  - Grossart, Hans-Peter
A1  - Larsen, Morten
A1  - Tang, Kam W.
A1  - Arendt, Kristine E.
A1  - Rysgaard, Soren
A1  - Thamdrup, Bo
A1  - Gissel Nielsen, Torkel
T1  - Copepod carcasses as microbial hot spots for pelagic denitrification
JF  - Limnology and oceanography
N2  - Copepods are exposed to a high non-predatory mortality and their decomposing carcasses act as microniches with intensified microbial activity. Sinking carcasses could thereby represent anoxic microenvironment sustaining anaerobic microbial pathways in otherwise oxic water columns. Using non-invasive O-2 imaging, we document that carcasses of Calanus finmarchicus had an anoxic interior even at fully air-saturated ambient O-2 level. The extent of anoxia gradually expanded with decreasing ambient O-2 levels. Concurrent microbial sampling showed the expression of nitrite reductase genes (nirS) in all investigated carcass samples and thereby documented the potential for microbial denitrification in carcasses. The nirS gene was occasionally expressed in live copepods, but not as consistently as in carcasses. Incubations of sinking carcasses in (15)NO3-amended seawater demonstrated denitrification, of which on average 34%+/- 17% (n=28) was sustained by nitrification. However, the activity was highly variable and was strongly dependent on the ambient O-2 levels. While denitrification was present even at air-saturation (302 mol L-1), the average carcass specific activity increased several orders of magnitude to approximate to 1 nmol d(-1) at 20% air-saturation (55 mol O-2 L-1) at an ambient temperature of 7 degrees C. Sinking carcasses of C. finmarchicus therefore represent hotspots of pelagic denitrification, but the quantitative importance as a sink for bioavailable nitrogen is strongly dependent on the ambient O-2 level. The importance of carcass associated denitrification could be highly significant in O-2 depleted environments such as Oxygen Minimum Zones (OMZ).
Y1  - 2015
U6  - https://doi.org/10.1002/lno.10149
SN  - 0024-3590
SN  - 1939-5590
VL  - 60
IS  - 6
SP  - 2026
EP  - 2036
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Dziallas, Claudia
A1  - Grossart, Hans-Peter
A1  - Tang, Kam W.
A1  - Nielsen, Torkel Gissel
T1  - Distinct Communities of Free-Living and Copepod-Associated
 Microorganisms along a Salinity Gradient in Godthabsfjord, West
 Greenland
JF  - ARCTIC ANTARCTIC AND ALPINE RESEARCH
N2  - Microorganisms such as Bacteria and Archaea play important roles in the Arctic food web and biogeochemical cycles. Nevertheless, knowledge of microbial community composition in Greenland waters is scarce, and information on microorganisms associated with Arctic zooplankton species is virtually non-existent. We compared free-living microbial communities with those associated with two key copepod species (Calanus finmarchicus and Metridia longa) along a salinity gradient from the deep waters beyond Fyllas Banke to the inner part of Godthabsfjord, West Greenland, in summer 2008. Using genetic fingerprinting we found that free-living Bacteria (in particular Alphaproteobacteria) and Archaea varied with environmental factors and formed different communities along the fjord. Microbial communities associated with the two copepod species were clearly different from those in the ambient water. Surprisingly, Archaea could not be detected on the copepods. Our results show that zooplankton form "microbial islands" in the Arctic pelagic realm with a distinctive community composition and presumably functionality different from the free-living Bacteria. Changes in intensity and timing of meltwater runoff due to global warming are expected to affect these microbial assemblages differently, with potentially significant ramifications for Arctic food webs and biogeochemistry.
Y1  - 2013
U6  - https://doi.org/10.1657/1938-4246.45.4.471
SN  - 1523-0430
SN  - 1938-4246
VL  - 45
IS  - 4
SP  - 471
EP  - 480
PB  - INST ARCTIC ALPINE RES
CY  - BOULDER
ER  -