湖泊地质学的进展:湖盆型模型......异常、难题和升级......25 年后的重访

IF 1.9 3区 地球科学 Q1 GEOLOGY
Cecilia A. Benavente, Kevin M. Bohacs
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引用次数: 0

摘要

湖盆型模型根据沉积物+供水的潜在容纳率对古代湖泊系统的地层记录进行分类。该模型将所有的供水方式和路径(直接下降、地表、地下)与沉积物的供应量和类型(碎屑、生物、化学)整合为一个单一的盆地填充量项(沉积物+水);其主要优势在于其广泛的适用性。随后的研究证实了这一方法的实用性,但也发现了由于原始模型的简化而造成的一些重要局限性。此处对该模型进行了扩展,以处理所有内陆水域(湖泊、池塘、湿地、滩涂),并增加了沉积物+水项的两个主要细分项:(1) 供水路径和 (2) 相对于沉积物供应量的供水量。地下水的补给流动路径可细分为 "通过流"、"补给 "和 "排放"。从持续开放到持续封闭,每一种地下水水文状态都可以通过净流出量与流入量之比来精确定义。可以利用原生湖相灰岩的稳定碳酸盐和氧同位素组成、详细的沉积学、地层学、古生物学和矿物学来破译这些路径。通过区分水供应路径,可以进一步了解水洼系统以及蒸发岩和碳酸盐岩的出现和特征。水与沉积物供给的体积比最直接地影响着湖泊、池塘和湿地的水深,从而影响水体的流体力学和生态系统行为,以及地层堆积和沉积序列的细节。它有助于微调对沉积物质地、层理、成分和有机物含量分布的估算。本文旨在解决有关内陆水体基本类型的问题,解释新的湖盆亚类型,并举例说明其潜力,以便对内陆水系及其地层记录进行更高分辨率的稳健分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Advances in Limnogeology: The lake-basin-type model revisited 25 years after…anomalies, conundrums and upgrades

Advances in Limnogeology: The lake-basin-type model revisited 25 years after…anomalies, conundrums and upgrades

The lake-basin-type model classified the stratigraphic record of ancient lake systems according to rates of potential accommodation relative to sediment + water supply. The model convolved all modes and paths of water supply (direct fall, surficial, subsurface) with amounts and types of sediment supply (clastic, biogenic, chemical) into a single basin-filling volume term (sediment + water); its major strength was its widespread applicability. This was supported by subsequent investigations confirming the utility of this approach, but it also revealed some important limitations due to simplifications in the original model. The model has been expanded here to address all inland waters (lakes, ponds, wetlands, playas) as well as adding two major subdivisions of the sediment + water term: (1) water supply paths and (2) the volume of water supply relative to sediment supply. Water supply flow paths in the subsurface are subdivided into ‘throughflow’, ‘recharge’ and ‘discharge’. Each of these groundwater hydrology states can be defined quite precisely by the ratio of net outflow to inflow, from persistently open to consistently closed. These paths can be deciphered using stable carbonate and oxygen isotope composition of primary lacustrine limestones, detailed sedimentology, stratigraphy, palaeontology and mineralogy. Distinguishing water supply paths provides additional insights into playa systems and the occurrence and character of evaporites and carbonates. The volume ratio of water to sediment supply most directly influences the water depths of lakes, ponds and wetlands, which affect water body hydrodynamics and ecosystem behaviour as well as the details of stratal stacking and depositional sequences. It helps fine-tune estimates of the distribution of sediment texture, bedding, composition and organic matter content. The aim of this contribution is to address questions about the fundamental types of inland water bodies and to explain the new lake-basin subtypes and provide examples that illustrate their potential to enable higher-resolution, robust analysis of inland water systems and their stratigraphic records.

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来源期刊
CiteScore
4.10
自引率
16.70%
发文量
42
审稿时长
16 weeks
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