The data includes: zooplankton species list; zooplankton density; microscopy; high-throughput sequencing; complete data; constructing an original data set for lakes on the Qinghai-Tibet Plateau. Zooplankton is an indispensable link in lake water ecological investigation, and it is a link between the system The location of the food web is an important carrier for the material circulation and energy flow of the food web. The systematic investigation and study of the composition and biodiversity of the zooplankton in the lakes on the Qinghai-Tibet Plateau is particularly important for understanding the stability and resilience of the lake ecosystem on the Qinghai-Tibet Plateau. In addition, Zooplankton are very sensitive to environmental changes, and changes in their structure and functional groups can indicate the intensity and magnitude of environmental pressure.
LI Yun
Net primary production (NPP) is the basic resource to maintain the life of human and heterotrophic organisms. It is the basic index to measure the structural characteristics and carrying capacity of ecosystem. In this study, the total primary production (GPP) data of 2015 based on the vegetation photosynthesis model (VPM) was used to calculate the NPP data by calculating the ratio of autotrophic respiration. The data can be used to analyze the spatial pattern of vegetation productivity in the Qinghai Tibet Plateau, which is of great significance to the ecological protection of the Qinghai Tibet Plateau.
YAN Huiming
Dataset of biodiversity survey in the urbanized area of Tibetan Plateau mainly includes the survey datasets of waterbird diversity and vegetation diversity in the Qinghai Lake Basin. From July to August in 2020, 24 waterbird observation sites were set up around Qinghai Lake, such as sites located in Ganzi River wetland and Buha River estuary, etc., and the species and population of waterbirds were recorded by telescope observations and drones. Besides, 28 plots (1m×1m) were selected based on the local vegetation types, and elements of vegetation types, frequency and biomass were recorded. Our dataset will support the study of optimizing the ecological security barrier system in the key urbanized areas of the Tibetan Plateau.
CHEN Kelong, CHEN Zhirong
In order to evaluate and construct the rapid identification system of DNA barcodes for agricultural and pastoral insects, and put forward reasonable suggestions for sustainable utilization, from 2019 to 2020, this project carried out routine DNA extraction and identification of natural enemies of Hymenoptera, such as Hemiptera, bee pollinators, Lepidoptera, parasitic wasps, weevil and other natural enemies of groups other than Hymenoptera collected from the main agricultural and pastoral areas of Qinghai Tibet Plateau Using universal primers for PCR amplification and sequencing, 2000 DNA barcodes were obtained. The data is stored in FAS file. The information of sample species and collection sites was summarized in the information of tissue samples (2020) of the second Qinghai Tibet scientific expedition (2019qzk0501).
QIAO Gexia
The animal resources and their reasonable protection, development and utilization in Hoh Xil area of Qinghai Province are based on the comprehensive scientific investigation of Hoh Xil area carried out from May to August 1990. With the rapid increase of population in this century and the increasing intensity of human demand for natural resources, the resources have been seriously damaged, and the deterioration of natural environment and the increasing depletion of resources have become the focus of the world One of the most prominent problems in the world. In particular, the living environment of wild animals is still in a completely natural state, which is rare on earth. Most of Hoh Xil area is still a no man's land. It retains the original state of the ecosystem, and is also a refuge for many rare and unique resource animals. Therefore, it is a rare treasure land with rich animal resources in China and the world. Because of the bad natural conditions and the extremely difficult transportation in Hoh Xil area, zoologists have not been involved in this area for a long time. From May to August 1990, the animal group of the national comprehensive scientific investigation team of Hoh Xil region had the honor to go deep into the region to carry out resource investigation. They had a relatively clear understanding of the resource background and mastered a large number of first-hand materials, thus filling the scientific blank of animal resources in this region.
FENG Zuojian
Plateau medicine and human physiology research in Kekexili area of Qinghai Province, the data are from the comprehensive scientific investigation of Kekexili area carried out from May to August 1990. With the human marching into the plateau area, plateau medicine, a main branch of environmental medicine, is quietly rising. Although the research of plateau medicine has gone through more than a century (1987), many mechanisms remain unresolved. Medical scientists have organized academic mountaineering for many times to carry out Alpine medical investigation (West JB, 1982; Wu T, y, 1992). However, most of them are limited to observing the changes of the internal environment of the aircraft through the intense movement of climbing mountains, which is far from the daily life and labor of human beings on the plateau. After almost all the mountains in the world have been conquered by human beings, there are still a few highland hinterlands that have not been set foot in. Hoh Xil is such a "no man's land" on the earth. The magical color and adventurous career are attracting brave explorers. The effects of high altitude hypoxia, low temperature, low humidity and strong ultraviolet on human body are the most attractive research fields in Applied Physiology.
FENG Zuojian
Hoh Xil area is located in the hinterland of Qinghai Tibet Plateau, south of Kunlun Mountain, north of Tanggula Mountain and west of Qinghai Tibet highway. From May to August 1990, the comprehensive scientific investigation team of Kekexili region, jointly organized by the State Science and Technology Commission, the Chinese Academy of Sciences, the Qinghai provincial government and the State Environmental Protection Bureau, with the strong support of the Qinghai provincial government, carried out a large-scale comprehensive investigation in the region and obtained rich first-hand precious information. Biologists all over the world have realized more and more clearly that the most urgent task at present is to conduct a comprehensive investigation of some species before they are stable or extinct in the natural ecosystem, and the investigation of species diversity is the most critical, because if we do not correctly understand the species in a certain area and their role in the natural ecosystem, it will be seriously damaged Affect the development of other work. Most of the Hoh Xil area in Qinghai Province is still a no man's land. There is almost no investigation and Research on the biodiversity and resources in this area. Therefore, this scientific research is of great scientific significance.
FENG Zuojian
The data of birds in Kekexili area of Qinghai Province are from the comprehensive scientific investigation of Kekexili area carried out from May to August 1990. In the composition of birds, all of them are Palaearctic, and the composition of Qinghai Tibet area accounts for a large proportion, reaching as many as 18 species. Kekexili is closely related to the whole plateau in terms of geological structure or physical and geographical conditions, and its bird composition also reflects The correlation is analyzed. On the one hand, the composition of the Qinghai Tibet region accounts for a large proportion; on the other hand, the local habitat formed by its special location is extremely arid, which makes it difficult for the composition of the Qinghai Tibet region to extend into its hinterland; on the other hand, the composition of the Inner Mongolia new area is difficult to adapt due to the high temperature and cold, which makes the bird species, distribution and population in the Qinghai Tibet Plateau extremely low Different from other areas of the plateau, Hoh Xil area has always been an uninhabited area, lacking zoological data, which is conducive to the study of Hoh Xil area.
FENG Zuojian
The data of insects and other arthropods in Kekexili area of Qinghai Province are from the comprehensive scientific investigation of Kekexili area from May to August 1990. The central area of the Qinghai Tibet Plateau, known as the "roof of the world", is Kekexili area. Due to its high terrain, sparse vegetation, low air temperature and less rainfall, its insect fauna is extremely unique, which is a Typical Alpine insect fauna. Because of the high altitude, cold climate, low air pressure, lack of fresh water, no roads and extremely bad natural conditions in Hoh Xil area. From May 1990 to August 1990, more than 4000 specimens were collected, including ten orders of Insecta: Collembola, Ephemeroptera, zhenptera, trichophaga, Hemiptera, Coleoptera, Lepidoptera, Diptera, Hymenoptera and fleas, and three other classes of invertebrates, such as Branchiopoda and labiopoda Chilopoda and Arachnida. In Insecta, Diptera is the most, followed by Coleoptera and Hymenoptera. It provides a reference for the following research.
FENG Zuojian
This data includes the soil microbial composition data in permafrost of different ages in Barrow area of the Arctic. It can be used to explore the response of soil microorganisms to the thawing in permafrost of different ages. This data is generated by high through-put sequencing using the earth microbiome project primers are 515f – 806r. The region amplified is the V4 hypervariable region, and the sequencing platform is Illumina hiseq PE250; This data is used in the articles published in cryosphere, Permafrost thawing exhibits a greater influence on bacterial richness and community structure than permafrost age in Arctic permafrost soils. The Cryosphere, 2020, 14, 3907–3916, https://doi.org/10.5194/tc-14-3907-2020https://doi.org/10.5194/tc-14-3907-2020 . This data can also be used for the comparative analysis of soil microorganisms across the three poles.
KONG Weidong
In order to describe the distribution pattern of genetic diversity of the main domesticated animals in the Qinghai Tibet Plateau and its surrounding areas, clarify their genetic background, and establish the corresponding genetic resource database, the undergraduate team collected local animals in Dali, Yunnan, Shangri La, Mangkang, Luqu, Chayu, Changdu, Hetian and Yili regions from 2018 to 2019 The blood or tissue samples of the animals were collected, and the corresponding individual photos were taken at the same time. Each folder contains a set of photos of local domestic animals and a sample information sheet. Photos are stored in JPG format. The information table records the basic sample information such as species, species, detailed sampling place, sample type, collection time, collector and storage method, and stores them in the form of Excel.
YIN Tingting, PENG Minsheng
In order to collect the characteristic Domestic Animal Germplasm Resources in Qinghai Tibet Plateau and explore the molecular markers that affect the quality of the germplasm resources, the scientific research team of task five sub project 2019qzk05010704 extensively collected samples of Qinghai Tibetan sheep and Qinghai fine wool sheep in Haibei and Haixi of Qinghai Province from 2019 to 2020, and established the first and second core groups in Ledu agricultural experimental station and Sanjiaocheng sheep breeding farm of Qinghai Province. This data set contains a lambing information table, which records the lambing records of 2074 sheep. The information table includes basic sample information such as gender, lambing time, birth weight, etc., which is saved in Excel form. Individual photos were saved in JPG format and submitted to the "photo video of the second Qinghai Tibet scientific expedition (2019qzk0501) (2020)" dataset. This data set can be used in combination with physical samples to screen individual sheep with superior heterotopic sites for marker assisted selection, propagation and generation selection, and to cultivate families with special germplasm resources.
ZHAO Kai
In order to investigate the species, dispersal location and ecological impact of alien fish on the local indigenous fish in the Qinghai Tibet Plateau, the scientific research team of task 5 sub project 2019qzk05010304 investigated the lower reaches of Lhasa River and Yarlung Zangbo River from 2019 to 2020. This dataset contains a sample information table, which includes fish species, sample point information, sampling time, collector and other basic sample information, and is saved in the form of Excel. A metadata description document, saved in the form of Excel table. 160 photos were saved in JPG format and submitted to the "photo video of the second Qinghai Tibet scientific expedition (2019qzk0501) (2020)" dataset.
XIONG Wen
Alpine vulture is a unique species of falciformes raptors in China. Its distribution area is not wide, and its population is small and shows a downward trend. The population, distribution, habitat and protection of Alpine vultures in China have not been systematically and comprehensively investigated, and the resource status is unclear. In order to find out the population, habitat and protection status of this species, and to study the behavioral adaptation characteristics of this species to the unique habitat of the Qinghai Tibet Plateau, so as to provide scientific support for the effective protection of this species. In Tibet Autonomous Region, the undergraduate team used the method of motor vehicle transect survey to count the number of individuals in a certain time and distance, combined with the method of walking survey to observe the distance from the road into various representative habitats. This dataset contains 15 field observation routes in Tibet in 2019 and 25 in 2020. At the same time, the animals such as Tibetan fox, rock sheep, wolf, Tibetan antelope, Tibetan wild donkey and Tibetan gazelle were recorded. The data includes sample line number, date, start time, end time, start point, end point, weather, and the information of animal name, quantity, distance, behavior and habitat.
MA Qiang
As a rare and endangered animal in the Qinghai Tibet Plateau, the study of its population genetic diversity, population structure, population dynamics and key influencing factors is of great value to climate change and human disturbance in the Qinghai Tibet Plateau. In order to clarify the population dynamics and the key influencing factors of two kinds of snow chickens (Tibetan snow chicken and Himalayan snow chicken), based on the 3S (GPS, GIS and RS) theory of line survey technology, this sub project recorded and collected the distribution information of two kinds of snow chickens in the Qilian Mountains in July 2020, and used the maximum entropy, random forest and other statistical models to infer the species distribution. Complete the collection of genetic resources, population survey and habitat assessment of two kinds of Snowcock in Qilian Altun mountain area. This data set contains species, scientific name, longitude and latitude, survey area, investigator and survey date information.
ZHANG Lixun
We used satellite tracking technology to track some wintering populations of black necked Crane. After catching the black necked Crane with the foot buckle method, we fixed the tracker with backpack method. The total weight of the tracker is 45g, accounting for less than 1% of the weight of the black necked Crane. After flying, we get the tracking data of the black necked Crane by sampling comments of one activity point per hour, and draw these data on the map, so as to obtain the activity track of the black necked Crane during the winter. The results showed that the selection of wintering sites for black necked cranes was highly stable. Preliminary analysis showed that there was a strong link between wintering sites and breeding sites. Strong migration connectivity indicates that black necked cranes are more vulnerable to environmental changes. These results suggest that it is important to strengthen the protection of overwintering habitat. At the same time, we need to take a variety of methods to monitor the population health and dynamics of black necked Crane. This data set contains species name, location, time, longitude and latitude, altitude, speed, temperature and other information.
WU Heqi
Plateau Zokor (Eospalax) Baileyi is an animal of mole family and zokor genus. It lives in underground dark closed caves for a long time and does not hibernate. It mainly feeds on the underground roots of plants. It reproduces once a year and produces 1-6 pups per litter. It mainly inhabits in humid river terraces, mountain basins, beaches and Foothills such as alpine meadow, meadow grassland, alpine shrub, plateau farmland and barren slope Slope, only distributed in Western and Northwest China, 2800-4500m above sea level. The plateau zokor distributed in high altitude area not only faces the hypoxia stress of underground cave, but also faces the dual pressure of plateau hypoxia. Long term hypoxic life not only accumulates adaptive mutations in genome sequence, but also reflects adaptive regulation changes in genome structure and gene expression regulation. By analyzing DNA methylation and transcriptome data of Plateau Zokor at different altitudes, we can try to analyze the adaptive evolution and regulation mechanism of Plateau Zokor at the level of apparent regulation and gene expression.
LV Xuemei
From September 5 to September 26, 2020, the bird research team of the Institute of zoology, Chinese Academy of Sciences, composed of eight people, including Zhang Dezhi, the sub project leader, respectively inspected yadonggou, Yadong County, Xigaze City, chentanggou, Dingjie County, and zhangmugou, Nyalam County, Himalayan region, and successfully completed this year's field research. The observation data is composed of bird species names, observation sites and observation time, including not only the Himalayan region, but also a small number of sites. The collected bird species data were also incorporated into the data set. The corresponding photos and videos were collected into the data set of the animal special topic "the second Qinghai Tibet scientific research plateau animal diversity protection and sustainable use (2019qzk0501) photo and video (2020)".
ZHANG Dezhi
In order to reveal the spatial pattern of bird diversity distribution and explore the construction mechanism of Himalayan bird community. In 2020, a total of 775 bird survey sites will be collected in Chayu and Motuo counties of Nyingchi Prefecture, Tibet Autonomous Region. This data set contains a sample information table, which contains 4029 bird observation data. Each information includes species name, Latin name, sampling place, survey time, investigator, altitude, habitat type, distance from the midpoint and other basic information, which is stored in Excel. The corresponding photos and videos were collected into the data set of the animal special topic "the second Qinghai Tibet scientific research plateau animal diversity protection and sustainable use (2019qzk0501) photo and video (2020)".
WU Fei
The global land surface characteristic parameter (LAI) product was used with a spatial resolution of 5 km. The product uses generalized regression neural network method to retrieve Lai from AVHRR surface reflectance data. In this study, 12 issues of Lai data products from June to August of each year in five Central Asian countries, Mongolia and Northern China from 1981 to 2017 were downloaded from the national science and technology infrastructure platform National Earth System Science Data Center. These images are cropped by ArcGIS software, and the maximum value is calculated to obtain the spatiotemporal data set of the largest Lai. Among them, five Central Asian countries include Turkmenistan, Kyrgyzstan, Kazakhstan, Tajikistan and Uzbekistan; northern China refers to the area north of the Yangtze River in China.
ZHANG Na
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