Abstract
Water and tufa samples were collected from Arrow Bamboo Lake, the stream from Panda Lake to Five-Color Lake, Pearl Shoal and Shuzheng Lakes in Jiuzhaigou National Nature Reserve, China, between October 2013 and September 2014, to investigate tufa growth rate and water environment (water temperature, pH, electric conductivity, major ions and nutrients), and analyzed to explore the main causes of tufa degradation. The mean annual rate of tufa growth was low and varied within lakes, with the maximum deposit thickness of 332 μm/y. The calcite saturation index ranged from 0.65 to 0.83. Scanning electron microscope images showed that the tufa deposits had non-isopachous structures, and diatoms were the dominant microorganisms that participated in tufa deposition. Porous and crystalline structures of deposits were linked with a high tufa growth and small amounts of diatoms. Conversely, tufa deposits with amorphous and loose structures showed a low crystal growth rate and a high number of diatoms. A one-way analysis of variance and a least significant difference test were applied to identify site differences in water chemistry. Linear correlations indicated that nitrate, phosphate and sulfate inhibit tufa growth (p < 0.05). Increased nitrogen and phosphorus concentrations that originate mainly from atmospheric pollution and tourist activities at scenic attractions could trigger excessive diatom growth, which inhibits tufa precipitation. A series of measures should be implemented (e.g., the visitor number and vehicles should be regulated and controlled) to minimize tufa degradation in the Jiuzhaigou National Nature Reserve.
Highlights
Tufa is a localized precipitation of calcium carbonate (CaCO3 ) that is generated by rivers, lakes or springs in karst areas through certain physical, chemical and biological actions
ABL) and Shuzheng Lakes (SSZL), and it decreased in response to a decrease the thickness of the deposits at sites SPS 1 and SPS 3 were higher than SPS 2 to some extent, and the in precipitation between November 2013 and April 2014
Our results indicate that diatoms were that attach toin thevarious calcite tufa surface) mentionedResearch in Section the calcite rategrowth depended important deposition has3.2, shown that agrowth high tufa rate on thefavors hydrochemistry the parent water
Summary
Tufa is a localized precipitation of calcium carbonate (CaCO3 ) that is generated by rivers, lakes or springs in karst areas through certain physical, chemical and biological actions. Tufa is widespread globally [2], and in some areas, massive tufa deposits can spread from meters to kilometers and form picturesque tufa landscapes, such as tufa waterfalls, tufa-dammed lakes and cascades. These natural landscapes are popular tourist destinations [1], such as Jiuzhaigou National Nature Reserve and Huanglong. Scenic and Historic Interest Area in China, Plitvice National Park in Croatia, Havasupai Canyon in the U.S and Dunns River Falls in Jamaica. The surge in tourist numbers has led to water pollution and trampling on tufa in scenic spots, and increased pressure is expected in terms of the conservation of tufa landscapes [4]
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