Impacts of Yulong Mountain Glacier on Tourism in Lijiang

The glacier on the Yulong Mountain is one of the most important attractions in Lijiang, Yunnan, China. But it keeps retreating these years due to global warming, which is bound to influence regional tourism significantly in Lijiang. This study estimates the effects of the glacier retreat of the Yulong Mountains on tourism there. Primary data were collected through a visitor survey including demographics, motives, lengths of stay, and opinions about each tourism resource from tourists to Lijiang, as well as questions about which scenic spot（s） they had visited or would visit, how much they expended per day during their visit and how their visiting behavior would be changed upon the hypothesis that the glacier would disappear. These data were used to analyze the proportion of the contribution of glacier to the tourism in Lijiang and estimate the impact of glacier on the regional tourism quantitatively. According to the survey, it could be concluded that three quarters of the tourists to Lijiang were interested in the Yulong Mountain glacier, indicating that the glacier possesses notable appeal for sightseeing tourists. The results of our analysis showed that about 689,013-1,508,247 tourists, accounting for 19.63-42.97 % of the total 3,510,000 domestic tourists to Lijiang in 2004, would not come to Lijiang in the absence of the glacier, resulting in a possible direct economic loss of 84,382,508-184,713,011 USD （viz. 700,374,824-1,533,117,993 RMB） and a markedly decrease in the attraction radius.

A tropical paleosol at high elevation in the Yulong Mountains and its implication on the uplift of the Tibetan Plateau

A paleosol dated for about 500-700 kaBP and developed on a glacial deposit at -3 000 in a.s.l. in the Yulong Mountains is studied using soil chemical, morphological and mineralogical methods. The analytical results indicate that this soil was formed under tropical and humid conditions and can be classified as red soil, which cannot be formed in the present alpine environment at the studied site. This implies that the southeast margin of the Tibetan Plateau has experienced intense uplift since the formation of the paleosol. According to the necessary conditions for the formation of the modern red soil in China, we estimate that the

Recreational value of glacier tourism resources：A travel cost analysis for Yulong Snow Mountain

Glaciers, with their unique and spectacular appearances and rich and varied terrain, have received widespread attention and become important tourist attractions. This paper uses the travel cost method to estimate the recreational value of the glacier tourism resources of Yulong Snow Mountain(also called Jade Dragon Snow Mountain), which is the most developed glacier tourist attraction in China. First-hand information was obtained through field surveys, and the travel costs of visitors visiting the Yulong Snow Mountain glacier were calculated before the method was applied to evaluate the recreational value of the focal glacier resource. The results show that the Yulong Snow Mountain consumer surplus associated with its glacier resources in 2016 ranged from 645.59-3439.10 million CNY, and the total recreational value ranged from 1.97-8.17 billion CNY. Approaches allocating travel costs across multiple recreational sites, however, can vary, and there is large difference in estimated results depending on used approaches. Nevertheless, the results of the analysis can help understand the socio-economic value of glacier resources and provide a reference for their development and protection.

Distribution features of stable oxygen isotopes in the typical monsoon temperate-glacier region, Mountain Yulong in China

During the summers of 1999 and 2000, sampling was carried out in Mt. Yulong, for the investigation of the spatial distribution of oxygen stable isotope in the atmospheric glacial hydro system and similar results obtained in the two years have confirmed our conclusion. There is an evident negative correlation between stable isotopic composition and air temperature precipitation amount, suggesting that there exits a strong 'precipitation amount effect' in this typical monsoon temperate glacier region. There are marked differences between the δ 18 O values in winter accumulated snow, glacial meltwater, summer precipitation and glacier feeding stream. Under the control of varied climatic conditions, spatial and temporal variations of above glacial hydro mediums are apparent. Isotopic depletion or fractionation and ionic changes had occurred during the phase change and transformation processes of snow ice, ice meltwater, flowing of runoff and contact with bedrock. The variation of stable isotope in a runoff can reflect not only its own flowing process but also its different feeding sources.

Comparisons of stable isotopic fractionation in winter and summer at Baishui Glacier No.1,Mt.Yulong,China

Based on the data of δ^18O in surface snow, snow pits, meltwater and the glacier-fed fiver water at Baishui Glacier No. 1, Mt. Yulong, the isotopic fractionation behaviors in the typical monsoonal temperate glacier system in winter and summer were compared. The results indicate that the isotopic fractionation degree in summer is greater than that in winter, suggesting that the snow/ice melting is more intense in summer. Moreover, whenever it is in winter or summer, from surface snow to meltwater, and to glacier-fed fiver water, the gradient of δ^18O with altitude gradually increases. This shows that the degree of isotopic fractionation gradually strengthens when surface snow is being converted into meltwater and finally into glacial fiver water, which suggests that the influence of post-depositional processes on δ^18O gradient in the monsoonal temperate glacier region differs spatially.

自然资源统一确权登记技术难点探析——以玉龙雪山省级自然保护区为例

以玉龙雪山自然保护区自然资源确权试点为例,阐述了自然资源确权工作流程,分别针对确权工作中的多源异构数据融合、基础数据坐标系统多样、权利归属复杂、保护区内界线冲突等问题提出有效可行的解决方案,最后针对现状的自然资源确权提出切实有效的建议,为后续相关项目的开展提供指导和借鉴。

云南玉龙雪山自然保护区科研监测发展布局

科研与监测工作是保护区建设的重要内容之一,开展集科研与管理为一体的监测项目,是实施保护区科学管理和有效保护的依据,是保护区可持续发展的重要基础。在总结云南玉龙雪山自然保护区前期科研监测工作的基础上,经过深入调研和系统总结,对保护区开展科研监测的发展进行科学规划,布局以生物多样性大样方、野生动植物样方样线等常规监测为基础,利用高科技设备等开展全面监测;通过补齐科研短板和完善科研基础设施建设,依托科研单位及管理局科研人才,深入开展保护区科学研究项目,以期在提升保护区科研与监测水平的同时,全面提高保护区能力建设。

滇西北玉龙雪山东麓断裂晚第四纪活动性研究进展及其构造意义

川滇块体西边界发育了滇西北裂陷带。裂陷带北缘的玉龙雪山东麓断裂呈南北走向,展布于玉龙雪山和丽江盆地之间,是川滇块体西边界最靠内部的一条断裂。玉龙雪山东麓断裂的形成机制与活动性质不仅关系到川滇西侧复杂构造边界问题,而且能够解释玉龙雪山与哈巴雪山的隆起过程。在1996年丽江MS7.0地震发生后,玉龙雪山东麓断裂引起了关注,但前人的研究结果对该断裂的晚第四纪活动性质存在正断、走滑、逆冲等多种不同认识。表明该断裂长度虽然仅有60 km,却处于一个复杂的构造体系中,理解该断裂的活动特征与孕震行为,对建立川滇块体西部的复杂构造模型意义重大。本文在梳理前人研究资料的基础上,通过卫星影像对断层迹线进行了重新解译,对典型断错地貌进行了分析,发现了比较明显的正断层兼左旋走滑的证据,并在野外初步调查中验证了这些地貌解译证据。基于本文的总结与分析工作,进一步总结了不同性质的玉龙雪山东麓断裂所对应的不同区域构造模型。同时,我们认为从高原扩展角度来看,川滇块体西部的复杂断裂组合具有新生性,可能正在形成新的川滇块体西边界。

玉龙雪山暖温性针叶林大型真菌资源多样性调查

为厘清玉龙雪山暖温性针叶林大型真菌资源的物种组成,采用样地调查法对玉龙雪山南麓针叶林内的大型真菌与伴生木本植物进行调查与采集。结果表明,有真菌资源22科39属79种,其中毒菌19种,药用菌7种,食用菌46种,还有7种野生菌的资源利用情况不明;红菇科、牛肝菌科和鹅膏菌科为优势科,鹅膏属、牛肝菌属、红菇属和乳菇属为优势属;生态类型包括粪生真菌、木腐真菌、土壤腐生菌、外生菌根菌和真菌共生菌等5类,以外生菌根菌的种数最多;伴生木本植物有14科17属41种。暖温性针叶林内菌类资源与植物种类组成较为丰富,优势类群明显,极具开发潜力。

云南玉龙山地区的表土花粉散布特征

在对玉龙山—虎跳峡—点苍山一带表土孢粉调查的基础上,对区内植被与孢粉散布的关系进行了探讨。共划分了5个孢粉带,对应的植被带分别为高山灌丛、草地带、寒温针叶林带、针叶林带(分两个类型)、干热河谷稀树草地。在寒温针叶林带中依据建群种花粉峰值的不同可划分云杉林、冷杉林及红杉林群落。云杉林中草坪上的孢粉组合与林中基本一致,显示了区域植被在花粉组合中的重要作用。

玉龙雪山植物物种多样性和群落结构沿海拔梯度的分布格局

生物多样性沿海拔梯度的变化是多样性环境梯度格局研究中的一个热点问题。在对滇西北玉龙雪山2 900 m^4 200 m间沿海拔梯度进行的群落调查基础上,对植物物种多样性和群落结构的垂直分异格局进行了分析。结果表明:1)在16个样地中共记录植物物种261种,分属78科,158属,其中木本植物36种,灌木植物71种,草本154种。2)沿海拔梯度,森林群落的最大树高、最大胸径、平均树高和平均胸径等群落结构指标均呈单峰分布格局。3)随着海拔的升高。木本和草本的物种丰富度,先增加后下降;而灌木层的物种丰富度随着海拔的上升呈明显下降格局。4)木本层和灌木层的β多样性(Cody指数)随海拔升高,总体呈减小趋势,而草本层β多样性显示出单峰分布的垂直格局。

云南省玉龙雪山表土花粉垂直散布与植被关系研究

对云南省玉龙雪山地区8个垂直植被带下采集的49个表土样品进行表土孢粉的垂直散布研究，同时选择43个受人类活动干扰较少的样品和20个主要木本花粉类型进行了降维对应分析（DCA）。结果表明，玉龙雪山地区不同垂直植被带的孢粉组合具有不同的代表性成分与变化特征，能够较好地反映相应的植被带类型。在植物稀疏、花粉产量低的高山杜鹃灌丛植被带中，孢粉组合以外来的松属、冷杉属、落叶松属、云杉属和铁杉属等为主；冷杉林、落叶松林、云杉林和铁杉林等植被带孢粉组合的指示性成分分别是冷杉属、落叶松属、云杉属和铁杉属花粉，它们对应的峰值分别为13．6％，4．7％，39．4％和11．5％；针阔混交林、中山湿性常绿阔叶林的孢粉组合分别以高含量的常绿栎类、栲／石栎属为特征，并都含有多种落叶阔叶乔木和灌木的花粉，但后者比前者所包含的阔叶乔木与灌木成分更多，且蕨类孢子的峰值也出现在中山湿性常绿阔叶林中；云南松林的孢粉组合中除松属外很少有木本花粉出现。DCA排序结果较好地反映了现代植被与环境之间的相互关系，认为温度是决定不同植被带样点分布的最重要因素，这与垂直植被带随着海拔升高、温度逐渐降低而发生更替的规律是一致的。

玉龙山西麓更新世冰川作用及其与金沙江河谷发育的关系

在玉龙山东麓更新世冰川作用研究的基础上,对其西麓和金沙江河谷中的古冰川与冰水沉积物的分布和特征进行了调查。结合ESR测年,划分出4次冰期,即0.7～0.6MaB.P.的玉龙冰期,0.53～0.45MaB.P.的干海子冰期,0.31～0.13MaB.P.的丽江冰期和晚更新世中晚期的大理冰期,其中玉龙冰期为规模较大的山麓冰川,丽江和大理冰期为山谷冰川,干海子冰期则为山麓冰川与山谷冰川的过渡类型。来自玉龙山西坡的玉龙冰期冰碛物充填于现今金沙江谷底的事实和大具金沙江下渡口西岸早更新世金沙江砾石层的发现表明,金沙江在早更新世早期即已存在,也说明了在该段金沙江河谷中多处发现的湖相沉积物是冰川沉积堰塞河谷而成石鼓古湖的结果。在该段金沙江河谷中仅发现拔河50m左右以内的4级河流阶地,且往往以这些湖相沉积为基座的现象,则是石鼓古湖被外泄后金沙江现代河谷形成的结果。

玉龙雪山周边典型河流雨季水化学特征分析

2009年5～10月在玉龙雪山周边典型小流域白水河、三束河、哥吉河采集河水样品,水化学分析结果表明,三条河流河水均呈现弱碱性,主要离子组成表现为富集Ca2++Mg2+和HCO3-+SO42-,且以Ca2+和HCO3-为主,各类离子存在显著季节变化。离子来源分析表明,玉龙雪山周边小流域河水雨季主要受降水和岩石风化影响,大气降水对河水主要常规离子Na+、K+、Ca2+、Mg2+、SO42-的贡献率为分别为23.44%,9.66%,3.10%,17.81%,10.48%。研究区碳酸盐岩的风化产物是河水离子组成的主要控制因素。

玉龙雪山西麓冰碛(水)砾岩的工程地质特性研究

作为滇西北、川西和西藏地区最重要的第四纪堆积物类型之一,冰川堆积物的工程性质及其相关的地质灾害和工程问题研究日益受到工程界的关注。通过对上述地区大量冰碛物和冰水沉积物的现场调查发现,冰碛物和冰水沉积物是一类成分、结构和性质都十分复杂的第四纪堆积物,其工程性质主要与母岩成分和充填胶结物的矿物成分密切相关。发育在石灰岩地区的冰碛物和冰水沉积物因钙质(方解石)的次生胶结,而成为单轴抗压强度达10.94-14.22 MPa的岩石,作者称其为“冰碛(水)砾岩”。结合滇藏铁路滇西北段线路比选和优化工作,对云南玉龙雪山西麓第四纪冰川堆积物的类型和分布特征进行了详细的野外调查;在室内物理力学试验的基础上,着重研究了冰碛(水)砾岩的胶结物成分与胶结作用、水稳性、力学性质、声波速度等方面的特性,这不仅可以丰富现代岩石力学的研究内容,而且对本区铁路工程建设和水力资源的开发具有重要的实际价值。

玉龙雪山现代季风温冰川对气候变化的响应

以玉龙雪山冰川区为研究区,基于野外观测数据及遥感数据,分析玉龙雪山现代季风温冰川的响应过程,探讨冰川变化的主要原因。结果表明:玉龙雪山地区冰川持续退缩明显;近年来白水1号冰川冰裂隙数量增多,规模扩大,冰川退缩速度不断加快;冰川冰体温度升高,从而导致冰川消融加快;2004和2009年在玉龙雪山东坡发生的崩塌事件,是冰川消融加剧,冰体温度上升的直接反应;气候变暖是玉龙雪山冰川退缩的主要原因。

玉龙雪山冰川稳定同位素分馏冬夏对比

利用玉龙雪山白水1号冰川区冬季和夏季表面积雪、雪坑、融水以及白水河河水中!18O资料,对比分析了冬季和夏季我国典型季风温冰川系统内稳定同位素分馏行为的差异。分析结果表明,夏季冰川系统内各水体相变过程中稳定同位素分馏程度均比冬季强烈,指示出夏季季风海洋型冰川强烈消融的特点。另外,不论是冬季还是夏季,从表面积雪到融水再到由融水补给的河流,"18O垂直变化梯度依次增大,反映了从固态降雪向冰川融水补给的河流河水转换过程中,稳定同位素分馏程度逐渐增强,体现了沉积后过程对海洋型冰川区同位素记录的影响具有空间差异性。

滇西北玉龙雪山生物多样性现状及其保护对策

玉龙雪山位于云南省西北部丽江市,总面积2.6万hm2。区内种子植物有145科804属2646种。具有动植物种类丰富、植被类型多样、植物区系起源古老,地理成分复杂,特有种丰富,分化显著,旅游资源独特等特征。从玉龙雪山生物多样性特性、旅游、科考、资源开发等方面详细分析了目前生物多样性受到危害的现状及原因,提出了切实可行的保护对策。

长江上游玉龙雪山植物物种多样性形成的探讨

玉龙雪山位于云南省西北部的丽江市,是界于澜沧江和金沙江之间云岭山脉的主峰。南临丽江坝,东、西、北三面均为金沙江环绕,处于中国三大植物多样性中心之一的横断山区的核心地带,具有很高的植物物种多样性。该区有藻类植物31科72属196种,地衣植物17科20余种,在苔藓植物中有苔类45种、藓类130种,蕨类植物约有220多种,种子植物有171科804属2 646种(不含栽培种及种下等级),其中中国特有种1 631种,占本区种子植物总数的61.46%。对玉龙雪山植物物种多样性的形成进行了探讨,认为玉龙雪山丰富的植物物种多样性主要来源于3个第三纪古植物区系成分即古北大陆、古地中海以及古南大陆成分,其中以古北大陆成分为主。之后的新构造运动及第四纪冰期冰川的反复作用,形成了玉龙雪山复杂多样的生态环境。来源于以上3个古植物区系成分的植物物种在以后的进化过程中经过不断分化、发展以及与临近区域的交流,形成了现在丰富的植物物种多样性格局。

玉龙雪山冰川雪坑中细菌多样性群落结构及其与气候环境的关系

通过DAPI荧光计数、恢复培养和变性梯度凝胶电泳,分析了玉龙雪山不同深度积雪中的细菌数量、多样性及其群落结构.结果显示:玉龙雪山雪坑样品中细菌数量和多样性指数与气候环境替代指标w(Ca^(2+)),w(Mg^(2+)),w(Cl^-)等具有相关性.可培养细菌隶属于三个不同系统发育群:Actinobacteria(37%),Firmicutes(11%)和Proteobacteria(α-Proteobacteria)(52%),其中α-Proteobacteria类为优势类群.DGGE测序结果表明细菌属β-Proteobacteria,Actinobacteria和Bacteroidetes类群,以β-Proteobacteria为优势类群,并且不同深度雪坑中细菌多样性和群落结构没有明显变化.结果表明:海洋型冰川雪中细菌数量和多样性、群落结构与大陆型冰川雪相比,冰雪微生物具有其特殊性.