One century of sedimentation and Hg pollution at the mouth of the Sagua la Grande River (Cuba)

Misael Díaz-Asencio,Roberto Morabito,Ana Carolina Ruíz-Fernández,Miguel Gómez-Batista,Yoelvis Bolaños-Álvarez,Carlos Alonso-Hernandez,Joan Albert Sanchez-Cabeza

doi:10.7773/cm.v40i4.2472

Abstract

The Sagua la Grande River is the largest of northern Cuba. The socioeconomic development in this region during the last 100 years has caused changes in its natural conditions, such as an increase in Hg levels. In 1981, a chlor-alkali plant with mercury-cell technology was built on the river bank and has released several contaminants to the environment. Sedimentation along the river and the nearby coastal zone was reconstructed using the radionuclides 210Pb, 226Ra, 137Cs, and 239,240Pu in sediment cores. The changes in sediment accumulation were related to important changes in the river basin after 1950, such as the channeling of the river in 1955 and the construction of the Alacranes Dam in 1972. Maximum sediment accumulation rates were attributed to large floods in 1933, 1948, and 1985 (Hurricane Kate). The 210Pb chronology allowed the reconstruction of Hg pollution during the last four decades. In the locations with greatest fluvial influence, Hg concentrations increased since the early 1980s exceeding the Effects Range-Median (0.71 mg kg–1). The accumulated Hg inventories released from the plant were one order of magnitude larger than those due to other sources. These results show the impact of Hg releases from this industry on the estuary, especially in the coastal zone close to the river mouth.

Highlights

Natural resources of great socioeconomic and environmental value are found in coastal zones, the natural interface between terrestrial and marine environments, where they are subjected to strong anthropogenic pressure
The objective of the present study was to evaluate the changes in the sedimentary regime and Hg pollution in the vicinity of the river mouth over the past decades by analyzing sediment cores dated with 210Pb and other environmental radiotracers
Two cores were collected from the river estuary using a plastic tube (60 cm long and 10 cm in diameter), and two cores were collected from the coastal zone using a gravity corer (11 cm in diameter)

Summary

Introduction

Natural resources of great socioeconomic and environmental value are found in coastal zones, the natural interface between terrestrial and marine environments, where they are subjected to strong anthropogenic pressure. Ciencias Marinas, Vol 40, No 4, 2014 of the coastal zone and its resources is essential for the socioeconomic development of countries, yet the overexploitation of these areas has seriously damaged coastal ecosystems (GESAMP 2001). Several environmental indicators, such as pollutants and land-use change, can be recorded in coastal sediments (e.g., Palanques et al 2008, Ruiz-Fernández et al 2012), which accumulate substances and/or elements of natural and anthropogenic origin. The objective of the present study was to evaluate the changes in the sedimentary regime and Hg pollution in the vicinity of the river mouth over the past decades by analyzing sediment cores dated with 210Pb and other environmental radiotracers

Objectives

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Conclusion