In order to understand the distribution and diversity of amphibians and fish in Namuco basin of Qinghai Tibet Plateau, and master the basic data of regional amphibians and fish resources. Based on the field survey of vertebrate diversity in naweizi (k05002) in recent decades, the impact of climate change on naweizi (k05002) has been analyzed. In 2021, a comprehensive survey was conducted in Namucuo basin of Tibet Autonomous Region. This data set contains 1 sample information table and 200 photos. The sample information table contains basic sample information such as species, variety, detailed sampling place, sample type, collection time and storage method, which is stored in the form of Excel. Photos, stored in JPG format.
ZHAO Tian
In order to explore the species diversity, genetic diversity and distribution pattern of amphibians and reptiles in the Qinghai Tibet Plateau and Hengduanshan area, clarify their classification and evolutionary status, as well as related genetic background, and establish the corresponding genetic resource bank. In 2021, 50 amphibian and reptile specimens and 100 tissue samples collected from 2020 to 2021 will be sorted out. This data set contains 1 sample information table, 1 specimen information table and 300 photos. The sample information table contains basic sample information such as species, detailed sampling place, longitude and latitude, altitude, collection time, collector and storage method, which is stored in the form of Excel table. Photos, stored in JPG format.
LI Jiatang
This sub project (2019qzkk05010121) systematically investigates the Jiayuguan Jiuquan Yumen Jinta area of Qilian Mountain, finds out the species, population number, geographical distribution, interference status and protection status of wild animals in four counties (districts), establishes the regional species diversity database, and writes the species list and wild animal investigation report of Qilian Mountain. Evaluate the suitable habitats of key species, master the differences of species diversity in different regions, seasons and habitats and the dynamic change law of wild animals in Qilian Mountain, reveal the key influencing factors of species diversity, and provide scientific basis for future ecological and wildlife protection and management decisions.
CHEN Jiarui
In order to fully grasp the current situation of terrestrial wildlife resources in Qilian Mountain, collect relevant data on the species distribution, population number and habitat of terrestrial wildlife in the reserve, and reveal the key influencing factors of species diversity and the important factors for the stability of ecosystem. This sub project (2019qzkk05010120) makes a systematic investigation on Haiyan Gangcha Menyuan of Qilian Mountain, investigates in detail the species, population number, geographical distribution, habitat information, protection status and threatened factors of wild animals in the three counties (districts), establishes the regional species diversity database, and writes the investigation and evaluation report of wild animal species diversity in the region. And further evaluate the biodiversity, typicality, rarity, vulnerability, naturalness and scientific research value of the region, reveal the key influencing factors of species diversity and the important factors of ecosystem stability, and put forward strategies, suggestions and measures for the protection and sustainable utilization of biodiversity.
WANG Xifeng
Through the field investigation of min, Ledu, Huzhu and Datong, the species, relative quantity, distribution area, interference status and protection status of wild animals in 4 counties (districts) of Qilian Mountain in Qinghai are mastered, and the species list and field investigation report of wild animals in 4 counties (districts) of Qilian Mountain are prepared. According to the field survey results, evaluate the suitable habitat of endangered protected species, the threat and interference status of endangered protected species, reveal the key influencing factors of species diversity, and provide scientific basis for the future ecological and wildlife protection and management decision-making in the region. In 2021, the sub project 2019qzkk05010114 conducted the second annual survey of wild animals in Minhe, Ledu, Huzhu and Datong counties (districts) by using the transect method, transect method and transect method. A total of 255 species of wild animals were recorded, belonging to 22 orders, 59 families and 172 genera. Among them, there are 4 amphibians, 2 reptiles, 220 birds and 29 mammals.
LIU Wei
In order to analyze the animal diversity pattern of the Qinghai Tibet Plateau and establish the corresponding animal specimen database. The sub project 2019qzkk05010113 was concentrated in the West Tianshan Mountain of Xinjiang in 2021. A total of 200 specimens and tissue samples of local wild animals, such as common vole and Apodemus agrarius, were collected. The solid samples include 200 specimen information tables and 500 photos, such as animal individuals, skins and tissues. This data set includes 1 data set specification table, 1 specimen information table and 1 tissue sample information table. The sample information table contains basic sample information such as species, variety, detailed sampling place, sample type, collection time, collector and storage method, which is stored in the form of Excel. Photos, stored in JPG format.
JIANG Xuelong
Tianshan Mountain is one of the seven mountain systems in the world. It is located in the hinterland of Eurasia, the largest land on the earth. Tianshan Mountain stretches 1700 kilometers from west to East in Xinjiang, China, covering an area of more than 570000 square kilometers. Scholars usually divide the Tianshan Mountains in Xinjiang into three parts: West Tianshan, Middle Tianshan and East Tianshan. The West Tianshan Mountain is represented by the West Tianshan Mountain National Nature Reserve, a world natural heritage site located in kurdning, Gongliu county. It has the richest wildlife resources in Tianshan Mountain and is a key area of Tianshan Mountain Biodiversity. This sub project (2019qzkk05010111) takes large and medium-sized mammals and amphibians and reptiles as the research object, finds out the spatial distribution of large and medium-sized mammals and amphibians and reptiles through investigation, collects representative species specimens and tissue samples, and takes photos. To provide basic data for studying the seasonal variation characteristics of species richness and species replacement altitude distribution pattern of large and medium-sized mammals, amphibians and reptiles in the Western Tianshan Mountains, as well as the main factors affecting the variation of the diversity pattern of the above two kinds of animals.
WANG Muyang
In order to analyze the animal diversity pattern of the Qinghai Tibet Plateau and establish the corresponding animal specimen database. The sub project 2019qzkk05010110 was concentrated in Ya'an City, Sichuan Province and Ganzi Tibetan Autonomous Prefecture in 2021. A total of 200 specimens and tissue samples of local wild animals, such as Apodemus agrarius and social mice, were collected. The solid samples include animal individuals, skins, tissues, etc. This data set contains 200 sample information tables and 374 photos. This data set includes 1 data set specification table, 1 specimen information table and 1 tissue sample information table. The sample information table contains basic sample information such as species, variety, detailed sampling place, sample type, collection time, collector and storage method, which is stored in the form of Excel. Photos, stored in JPG format.
CHEN Zhongzheng
In order to analyze the animal diversity pattern of the Qinghai Tibet Plateau and establish the corresponding animal specimen database. In 2021, this sub project (2019QZKK05010109) focused on Liangshan Yi Autonomous Prefecture and Ganzi Tibetan Autonomous Prefecture. A total of 271 specimens of local wild animals, such as Apodemus agrarius and social rats, were collected. The solid samples include animal individuals, skins, tissues, etc. This data set contains one specimen information table (271 copies), one tissue sample information table (271 copies), and photos taken by Tibet Chayu moto infrared camera. The sample information table contains basic sample information such as species, variety, detailed sampling place, sample type, collection time, collector and storage method, which is stored in the form of Excel. Photos, stored in JPG format.
LI Xueyou
In order to investigate the distribution of birds in Tibet, the sub project sub project 2019qzkk05010108 conducted an important investigation on the background resources of birds in Beibeng Township, Motuo County in 2021, especially conducted an in-depth and detailed bird investigation on the understory birds in xirang village, Didong village and green village near the illegal Indian controlled area, and analyzed the composition of the understory bird community at medium and low altitude. A total of 717 bird specimens were collected, including 73 bird species. The results showed that the main dominant species in the investigated altitude range (600 ~ 1500m, mainly in the middle and low altitude) were stachyris nigriceps, schoeniparus cinereus, cyanoderma chrysaeum and alcippe nipalensis). There are also occasional species such as Zoothera monticola. This data set includes specimen photos, habitat photos, working photos, specimen information table and tissue sample information table.
WU Fei
This sub project aims to conduct comprehensive investigation and Research on amphibian groups in weak and key areas of the Qinghai Tibet Plateau, namely the Himalayas and Hengduan Mountains, obtain background data of regional animal diversity, collect a batch of specimens, collect specimens of species and environmental photos, and analyze and study amphibian diversity and its spatial pattern. In 2021, 500 local amphibian tissue samples were collected in Motuo County, Nyingchi Prefecture, Tibet Autonomous Region. This data set includes 1 tissue sample table, 1 specimen sample table and 900 photos. The sample information table includes basic sample information such as species, variety, detailed collection, sample type, collection time, collector and storage method, which are stored in the form of Excel. Photos, stored in JPG format.
YUAN Zhiyong
In order to find out the current situation of Reptile Diversity, population number and habitat type in southern Tibet, grasp the temporal and spatial characteristics of its distribution, and establish the reptile resource Germplasm Bank in this region. In 2021, a total of 200 reptile tissue samples and 50 specimens were collected mainly in southern Tibet of the Tibet Autonomous Region (Chayu County, Motuo County, Mangkang County, Nyingchi County, etc.). This data set contains 2 sample information tables and 400 photos. The sample information table contains basic sample information such as species, detailed sampling place, sample type, collection time, collector and storage method, which is stored in the form of Excel. Photos, stored in JPG format.
GUO Peng
In order to analyze the characteristics of fish diversity in the Qinghai Tibet Plateau and evaluate the current situation of fish diversity protection in the Qinghai Tibet Plateau. The sub project 2019qzkk05010102 conducted field investigation and collected 1200 fish samples and tissue samples in Wuwei City, Jinchang City, Jiuquan City and Zhangye City, Gansu Province in 2021. The information of pectoral fin tissue samples cut from collected specimens, including the number of tissue samples, species classification status, geographical coordinates, altitude, habitat, preservation method and other information, shall be recorded and saved in Excel. This data set also includes 1600 photos of fish specimens, habitat photos and working photos, and 82 working videos.
HE Dekui
In order to systematically investigate insect species and analyze the distribution pattern of insect diversity in and around Motuo, Tibet, this sub project (2019qzkk05010101) collects representative insect groups such as Coleoptera, Hymenoptera, Lepidoptera, Diptera and Hemiptera by using trap method, net scanning method, lamp trap method and Malay's net method in Motuo and surrounding areas, Tibet, and records the information of insect specimens, Take pictures and videos of insects. This data set contains insect habitat photos and working photos taken in Motuo County, Bomi County, Chayu County, Nyingchi city and Milin County, Tibet from 2020 to 2021. Solid specimens are kept in the National Animal Museum.
LIANG Hongbin
The dataset includes pictures of culturable bacterial colonies from Amuco (AMC), Bangkog Co (BGC), Palung 4 glacier (PL4) and Yuzhufeng (YZF) ice core on the Tibetan Plateau, which can reflect basic information such as color and transparency of colonies. A table of information is attached, including the latitude and longitude of the colony's origin, water depth and color, etc. In this experiment, different bacteria were isolated from ice, snow, lake and other habitats on the Qinghai Tibet Plateau. These bacteria show different colors, which may be related to the bacteria adapting to the environment of strong radiation, low temperature and oligotrophic on the Qinghai Tibet Plateau, and adapting to the harsh environment through different pigment production capacity. The colonies are obtained by coating the lake water plate and culturing at low temperature (4 ℃) (R2A medium, etc.) to determine that they are pollution-free and single colonies. 16S rRNA full-length sequencing will be carried out for the obtained single colony, and whether it is a new species will be determined by 97% similarity; If the sequence similarity between this strain and the most similar strain is less than 97%, a whole genome mapping will be carried out to determine the phylogenetic relationship of this strain in the corresponding genera, families and even phyla, and determine whether this strain has a new developmental status to supplement the microbial diversity of lakes on the Tibetan Plateau.
LIU Yongqin
This vegetation water content data set is derived from the ground synchronous observation in the Luanhe River Basin soil moisture remote sensing experiment, including 55 sampled plots.The vegetation types involved in these sampled plots include grass, corn, potatoes, naked oats and carrots. The data measurement time is from September 13, 2018 to September 26, 2018.
ZHENG Xingming, JIANG Tao
Using adenosine content as a quality index of O. sinensis, we developed a comprehensive niche modelling approach to predict the spatial pattern of O. sinensis quality. Based on distribution and quality data for O. sinensis from published field work and experimental data, we separately built a comprehensive habitat suitability model to identify suitable habitats and a spatial quality model to map the adenosine content pattern in O. sinensis. The final model result was defined as the product of the results of the two models. Via this modelling process, we analysed the adenosine content in O. sinensis under baseline climates and different scenarios of future climate change.
GUO Yanlong
The data are phytoplankton data of 61 sites in 23 lakes in Tibetan in 2019. The sampling time is from August to September in 2019. The sampling method is conventional phytoplankton sampling method. During the sampling process, 1 liter of water sample is collected, fixed by Lugo's solution, static sedimentation, siphon concentration, and inverted microscope is used for identification. The data include 6 phyla, such as Bacillariophyta, Chlorophyta, cyanobacteria, Pyrrophyta, Euglenophyta and Cryptophyta, and different phytoplankton species. The data is the original data, which has not been processed, and the unit is individuals / L. The data can be used to characterize the composition and abundance of phytoplankton in the open water area of these lakes, and can also be used to calculate the diversity of phytoplankton community in these lakes.
ZHANG Min
Based on the combined morphological, osteological characters and molecular phylogeny, we describe a new species of the genus Elaphe that was discovered from the south slope of the Qinling Mountains, Shaanxi, China, namely Elaphe xiphodonta sp. nov. It is distinguished from the other congeners by a combination of the following characters: dorsal scales in 21-21-17 rows, the medial 11 rows keeled; 202–204 ventral scales, 67–68 subcaudals; two preoculars (including one subpreocular); two postoculars; two anterior temporals, three posterior temporals; reduced maxillary teeth and dentary teeth number (maxillary teeth 9+2, dentary teeth 12; sharp cutting edges on the posterior or posterolateral surface of the rear maxillary teeth and dentary teeth; dorsa head yellow, three distinct markings on head and neck; a distinct black labial spot present in supralabials; dorsum yellow, 46–49 complete (or incomplete) large black-edged reddish brown blotches on body and 12–19 on tail, two rows of smaller blotches on each ventrolateral side; ventral scales yellow with mottled irregular black blotches, a few irregular small red spots dispersed on middle of ventral. Based on molecular phylogenetic analyses, the new species forms the sister taxon to E. zoigeensis. The discovery of this new species increases the number of the recognized species of the genus Elaphe to 20.
SHI Jingsong
This data includes the benthos data of 21 lakes around Selinco and Namco in 2019. The sampling mainly uses bottom trawl in the littoral zone and Ekman collector in the deep-water area. After integrating the materials obtained by the two ways, the relative abundance of benthos data of each lake is given. The main benthos species are Gammarus, water beetles, and chironomid larvae. However, the frequency of Gastropoda and Ostracoda is low, which may be related to the sampling sites. The data further divided different types of benthos into 21 taxa, which improved the recognition accuracy and cognitive range and would provide a reference for the assessment of aquatic animal diversity and fishery resources in plateau lakes.
TANG Hongqu
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