期刊
PALAEOGEOGRAPHY PALAEOCLIMATOLOGY PALAEOECOLOGY
卷 436, 期 -, 页码 112-122出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.palaeo.2015.06.023
关键词
Strait of Magellan; Holocene; Paleoproductivity; Thermohaline conditions
资金
- DFG [Ki-456-/9-1, La-1273/3-2, La-1273/5-1, AR 367/6-1, AR 367/6-2]
- COPAS Center of the University of Concepcion [150100007, PFB-31]
- CONICYT [21060249]
- CONA program CIMAR [3073-133-LE10]
- COPAS
- FONDECYT [3130356]
- Flemish Research Foundation, Belgium [FWO 1215113N]
- Hanse-Wissenschaftskolleg (Germany)
One of the most important factors controlling fjord primary production in southernmost Patagonia is the variability in the thermohaline structure of the water column. In the present-day environment, thermal stratification is mostly related to freshwater input and in particular, the seasonal melting of glaciers. Here we assess whether this relation between fjord productivity and freshwater input holds true for the Holocene, using a sediment record from the central basin of the Strait of Magellan (core MD07-3132, 53 degrees 44.17'S; 70 degrees 19.03'W, 301 m). Our approach relies on a proxy-based reconstruction of fjord sea surface temperature (alkenone SST), paleosalinity, freshwater input, and paleoproductivity. The results indicate that, during the early Holocene, the accumulation rate (AR) of marine organic carbon was low (<20 kg m(-2) kyr(-1)), most likely due to high freshwater contribution resulting in low salinity and low SSTs. After 8.5 kyr BP and during the mid and late Holocene all the productivity proxies increase. The AR's of marine organic carbon (similar to 30 kg m(-2) kyr(-1)), biogenic CaCO3 (similar to 60 kg m(-2) kyr(-1)) and biogenic opal (425 kg m(-2) kyr(-1)) reached the highest values during the last millennium. This increase was probably driven by the marine transgression where marine macronutrient-rich waters entered into the central basin, while lowered precipitation and decreased meltwater input contributed to increase the basin's SSTs and salinity. The late Holocene rise in productivity was interrupted by a low salinity phase between 3.2 and 22 kyr BP, during which productivity returned to early Holocene conditions in response to increased input of glacial clays, as suggested by high values of K/Si ratio (similar to 1.2). Our results indicate that meltwater contribution from glaciers plays a crucial role in controlling fjord productivity on seasonal to millennial timescales. (C) 2015 Elsevier B.V. All rights reserved.
作者
我是这篇论文的作者
点击您的名字以认领此论文并将其添加到您的个人资料中。
推荐
暂无数据