Carex brunnescens, a pioneer plant that has an excellent ability to fix sand in the source region of the Yellow River (Maqu), plays an important role in maintaining the ecosystem stability of alpine grassland in Maq...Carex brunnescens, a pioneer plant that has an excellent ability to fix sand in the source region of the Yellow River (Maqu), plays an important role in maintaining the ecosystem stability of alpine grassland in Maqu. In this study, the biological characteristics (phonological characters, the growth process of overground and underground organs, and the morphological characters of underground organs) of C. brunnescens were studied by a field observation experiment. The results showed that C. brunnescens had the characteristics of turning green earlier than other plants, a long growth period, and two flowering and fruiting cycles. The leaf width, length and number of a single plant, and the density, coverage and leaf density of community increased significantly from the leaf extension period to the fruit mature period and then tended to be stable in the withering period, while the plant height and leaf area of a single plant and the leaf area of community rose significantly at first and then decreased. Underground stems (horizontal and vertical stems) and roots of C. brunnescens could survive in sand at a depth of 0-60 cm. The number of middle roots (0.2-0.5 mm in diameter) was the largest in all soil layers (0-20, 20-40 and 40-60 cm), and the total length of fine roots (〈0.2 mm) were the maximum in the sand at a depth of 20-40 cm, while the total length of middle roots was the maximum in the sand layer at a depth of 0-20 cm. The length, fresh weight and dry weight of the main root, horizontal and vertical stems was the maximum in the sand layer at a depth of 10-30 cm and was the minimum in the sand layer at a depth of 40-50 cm. It is concluded that C. brunnescens can well adapt to the alpine sand habitat of Maqu, can be used as the constructive species for ecological restoration in the alpine desertified grassland of Maqu, and has good popularization and application prospects.展开更多
We identified and mapped ecotourism areas in the First Meander of the Yellow River (FMYR) by incorporating tourist preferences, and regional division was also conducted. Considering wetland protection and local natu...We identified and mapped ecotourism areas in the First Meander of the Yellow River (FMYR) by incorporating tourist preferences, and regional division was also conducted. Considering wetland protection and local natural worship, we identiifed available ecotourism areas and used GIS to overlay six layers of the criteria to generate a suitability map of available areas. This process incorporated the opinions of 158 tourists to weight each criterion. Available areas were classiifed into ifve levels of suitability, with class I being the least suitable for ecotourism and class V being the most suitable. Distance from water area was found to be the most important criterion, and presence of forest to be the least important. The results show that a majority of the FMYR is class Ⅱ, Ⅲ or Ⅳ. FMYR was further divided into ifve sub-regions, and it is clear that the particular ecological characteristics and service functions of each sub-region warrant particular development. This study provides useful insights for tourism planners, local managers and visitors.展开更多
文摘Carex brunnescens, a pioneer plant that has an excellent ability to fix sand in the source region of the Yellow River (Maqu), plays an important role in maintaining the ecosystem stability of alpine grassland in Maqu. In this study, the biological characteristics (phonological characters, the growth process of overground and underground organs, and the morphological characters of underground organs) of C. brunnescens were studied by a field observation experiment. The results showed that C. brunnescens had the characteristics of turning green earlier than other plants, a long growth period, and two flowering and fruiting cycles. The leaf width, length and number of a single plant, and the density, coverage and leaf density of community increased significantly from the leaf extension period to the fruit mature period and then tended to be stable in the withering period, while the plant height and leaf area of a single plant and the leaf area of community rose significantly at first and then decreased. Underground stems (horizontal and vertical stems) and roots of C. brunnescens could survive in sand at a depth of 0-60 cm. The number of middle roots (0.2-0.5 mm in diameter) was the largest in all soil layers (0-20, 20-40 and 40-60 cm), and the total length of fine roots (〈0.2 mm) were the maximum in the sand at a depth of 20-40 cm, while the total length of middle roots was the maximum in the sand layer at a depth of 0-20 cm. The length, fresh weight and dry weight of the main root, horizontal and vertical stems was the maximum in the sand layer at a depth of 10-30 cm and was the minimum in the sand layer at a depth of 40-50 cm. It is concluded that C. brunnescens can well adapt to the alpine sand habitat of Maqu, can be used as the constructive species for ecological restoration in the alpine desertified grassland of Maqu, and has good popularization and application prospects.
基金National Natural Science Fund of China(No.4130141,41171435)Zhejiang Provincial Natural Science Foundation of China(No.LY13D010007)
文摘We identified and mapped ecotourism areas in the First Meander of the Yellow River (FMYR) by incorporating tourist preferences, and regional division was also conducted. Considering wetland protection and local natural worship, we identiifed available ecotourism areas and used GIS to overlay six layers of the criteria to generate a suitability map of available areas. This process incorporated the opinions of 158 tourists to weight each criterion. Available areas were classiifed into ifve levels of suitability, with class I being the least suitable for ecotourism and class V being the most suitable. Distance from water area was found to be the most important criterion, and presence of forest to be the least important. The results show that a majority of the FMYR is class Ⅱ, Ⅲ or Ⅳ. FMYR was further divided into ifve sub-regions, and it is clear that the particular ecological characteristics and service functions of each sub-region warrant particular development. This study provides useful insights for tourism planners, local managers and visitors.