Belcher A, Tarling G A, Manno C, Atkinson A, Ward P, Skaret G, Fielding S, Henson S A, Sanders R
1National Oceanography Centre, Southampton, SO14 3ZH UK.
2University of Southampton, Southampton, SO14 3ZH UK.
Polar Biol. 2017;40(10):2001-2013. doi: 10.1007/s00300-017-2118-z. Epub 2017 Apr 13.
Antarctic krill () play a central role in the food web of the Southern Ocean, forming a link between primary production and large predators. Krill produce large, faecal pellets (FP) which can form a large component of mesopelagic particulate organic carbon (POC) fluxes. However, the patchy distribution of krill swarms, highly variable pellet composition, and variable sinking and attenuation rates means that these episodic, but potentially large, carbon fluxes are difficult to sample or model. We measured particle flux and type using Marine Snow Catchers (MSC) in the marginal ice zone near the South Orkneys, Antarctica. Krill FP were the dominant component of the POC flux in the upper 200 m (typically 60-85%). FP sinking velocities measured onboard were highly variable (15-507 m d) but overall high, with mean equivalent velocities of 172, 267, and 161 m d at our three stations. The high numbers of krill FP sinking through the mesopelagic suggest that krill FP can be transferred efficiently and/or that rates of krill FP production are high. We compared our direct MSC-derived estimates of krill FP POC flux (33-154 mg C m d) and attenuation to estimates of krill FP production based on previous measurements of krill density and literature FP egestion rates, and estimated net krill FP attenuation rates in the upper mesopelagic. Calculated attenuation rates are sensitive to krill densities in the overlying water column but suggest that krill FP could be transferred efficiently through the upper mesopelagic, and, in agreement with our MSC attenuation estimates, could make large contributions to bathypelagic POC fluxes. Our study contrasts with some others which suggest rapid FP attenuation, highlighting the need for further work to constrain attenuation rates and assess how important the contribution of Antarctic krill FP could be to the Southern Ocean biological carbon pump.
南极磷虾在南大洋的食物网中起着核心作用,是初级生产与大型捕食者之间的一个环节。磷虾会产生大型粪便颗粒(FP),这些颗粒可构成中层海洋颗粒有机碳(POC)通量的很大一部分。然而,磷虾群的斑块状分布、颗粒组成的高度变化以及沉降和衰减速率的变化,意味着这些偶尔出现但可能很大的碳通量难以进行采样或建模。我们在南极洲南奥克尼群岛附近的边缘冰区使用海洋雪捕集器(MSC)测量了颗粒通量和类型。磷虾粪便颗粒是上层200米处POC通量的主要组成部分(通常为60 - 85%)。在船上测量的粪便颗粒沉降速度变化很大(15 - 507米/天),但总体较高,我们三个站点的平均等效速度分别为172、267和161米/天。大量磷虾粪便颗粒下沉穿过中层海洋表明,磷虾粪便颗粒可以高效转移和/或磷虾粪便颗粒的产生速率很高。我们将直接从MSC获得的磷虾粪便颗粒POC通量(33 - 154毫克碳/平方米·天)和衰减估计值,与基于先前磷虾密度测量和文献中粪便颗粒排泄率的磷虾粪便颗粒产量估计值进行了比较,并估计了上层中层海洋中磷虾粪便颗粒的净衰减率。计算出的衰减率对上覆水柱中的磷虾密度很敏感,但表明磷虾粪便颗粒可以高效地穿过上层中层海洋,并且与我们的MSC衰减估计一致,可能对深海POC通量有很大贡献。我们的研究与其他一些表明粪便颗粒快速衰减的研究形成对比,突出了需要进一步开展工作来确定衰减率,并评估南极磷虾粪便颗粒的贡献对南大洋生物碳泵有多重要。
