Monitoring
Dataset on Waterbirds in Qinghai Lake Basin (2023)
Li, Y.1,2 Li, X. Y.1,2 Chen, Z.1,2 Sun, J. Q.3 Wang, S. Y.1,2 Wang, M. Y.1,2 Yang, J. P.1,2 Chen, Y. R.1,2 Chen, K. L.1,2*
1. College of
Geographic Sciences, Qinghai Normal University, Key Laboratory of Natural
Geography and Environmental Processes of Qinghai Province, Xining 810008, China;
2. National Positional
Observatory of Qinghai Lake Wetland Ecosystem, Haibei 812200, China;
3. Qinghai
Lake National Nature Reserve Administration, Xining 810008, China
Abstract: Qinghai
Lake is located in the plateau zone. It??s lake basin is rich in biodiversity
and it is the gene pool of bird species in the Qinghai-Tibet Plateau, and
waterbirds, as an important part of the ecology of the Qinghai Lake wetland,
are good indicators for monitoring. The purpose of waterbird monitoring is to
obtain real-time information on the dynamic changes of waterbirds in Qinghai
Lake, habitat quality and other data. In August 2023, waterbird monitoring was
carried out in 26 observation sites in 24 observation sites in the basin. The
monitoring content includes habitat type, bird species name and quantity, etc,
thus obtaining the monitoring dataset of waterbird in Qinghai Lake Basin
(2023). The dataset includes: (1) basic information of waterbird monitoring
area; (2) waterbird monitoring data of Qinghai Lake basin; (3) assessment of
dominant species of waterbirds; (4) abundance of waterbirds; and (5)
photographs of waterbirds. The dataset is archived in .xlsx, .jpg and .docx
formats, which consists of 5 data files with the data size of 22.4 MB
(compressed into 1 file, 22.4 MB).
Keywords: Qinghai Lake basin; Tibet Plateau;
waterbird monitoring; 2023
DOI: https://doi.org/10.3974/geodp.2023.03.05
CSTR: https://cstr.escience.org.cn/CSTR:20146.14.2023.03.05
Dataset Availability Statement:
The dataset supporting this paper was published and is accessible through
the Digital Journal of Global Change Data Repository at: https://doi.org/10.3974/geodb.2023.11.02.V1 or https://cstr.escience.org.cn/CSTR:20146.11.2023.11.02.V1.
1 Introduction
Biodiversity
monitoring is mainly to provide information on the spatial and temporal changes
of the monitored objects, mainly reflecting the changes of biodiversity within
a certain spatial and temporal range, so biodiversity is one of the indicators
to measure the success of ecological conservation[1]. The diversity
of waterbirds and its change trend is one of the indicator factors to measure
the ecological environment quality of waterbird habitat[2]. Qinghai
Lake is located in the plateau, and its ecosystem stability is more fragile
than that of low-altitude wetlands, which
requires more comprehensive and effective monitoring waterbirds, as an
important part of the ecology of Qinghai Lake wetland, are good monitoring
indicators. Waterbird monitoring refers to the purposeful monitoring of
waterbird species, quantity, behaviors, habitats and other information
according to the pre-arranged space and time arranged[3, 4].
Qinghai Lake is
located between 99??36ʹE?C100??46ʹE and 36??32ʹN?C37??25ʹN. It is located in the
northeastern of the Tibet Plateau and at the southern foot of Qilian Mountains.
It extends from the east to the east road around Qinghai Lake, from the south
to National Highway 109, from the west to the west road around the lake, and
from the north to the entire water body of Qinghai Lake, the islands in the
lake and the wetlands around the lake, and the grassland within the
Qinghai-Tibet line, with a total area of 4,952 km2[5]. The climate
of the region belongs to the Tibet Plateau temperate continental semi-arid
climate with long and cold winters, warm and cool summers, low precipitation
and concentration in summer, abundant sunshine, strong solar radiation, and
large daily difference in temperature. Qinghai Lake National Nature Reserve is
located at the intersection of two migratory routes of waterbirds in Central
Asia and East Asia[6]. The waterbirds monitoring dataset was
collected from the sample site of Qinghai Lake National Nature Reserve Administration[7]
in August 2023. The waterbirds are monitored by sample site survey method
and the straight counting method, to analyze the population size, population
dynamics, diversity and distribution of habitats, and the species richness and
evenness of the whole region and different habitats are calculated. Species
richness and evenness in different habitats were calculated, and the waterbirds
monitoring dataset of Qinghai Lake basin in 2023 was obtained.
2 Metadata of the Dataset
The metadata of the Monitoring dataset on waterbirds in
Qinghai Lake basin (2023)[8] is summarized in Table 1. It includes the
dataset full name, short name, authors, year of the dataset, temporal
resolution, spatial resolution, data format, data size, data files, data
publisher, and data sharing policy, etc.
Table 1 Metadata
summary of the Monitoring dataset on waterbirds in Qinghai Lake basin (2023)
|
Items
|
Description
|
|
Dataset full name
|
Monitoring dataset on waterbirds in Qinghai Lake basin (2023)
|
|
Dataset short name
|
QinghaiLakeWaterfowl2023
|
|
Authors
|
Li, Y., Qinghai Normal University,
3460236082@qq.com
|
|
|
Li, X. Y., Qinghai Normal University,
lixingyue0102@163.com
|
|
|
Chen, Z., Qinghai Normal University,
389046748@qq.com
|
|
|
Sun, J. Q., Qinghai Lake National Nature
Reserve Administration, sunjq@163.com
|
|
|
Wang, S. Y., Qinghai Normal University,
2637286473@qq.com
|
|
|
Wang, M. Y., Qinghai Normal University,
1148450506@qq.com
|
|
|
Yang, J. P., Qinghai Normal University,
523968433@qq.com
|
|
|
Chen, Y. R., Qinghai Normal University, 2776246502@qq.com
|
|
|
Chen, K. L., Qinghai Normal University,
ckl7813@163.com
|
|
Geographical area
|
Qinghai
Lake basin
|
|
Year
|
2023
|
(To be continued on the next page)
(Continued)
|
Items
|
Description
|
|
Data
format
|
.xlsx,
.jpg, .docx
|
|
Data
size
|
22.4 MB
|
|
Data files
|
Species,
quantity and distribution location of waterbirds monitored; basic information
of waterbird monitoring areas; assessment of dominant species of waterbirds
|
|
Foundations
|
Ministry of Science and Technology of P. R. China (2019QZKK0405);
Science and Technology Department of Qinghai Province (2022-QY-204,
2023-ZJ-905T)
|
|
Data publisher
|
Global
Change science Research Data publishing System http://www.geodoi.ac.cn
|
|
Address
|
No. 11A, Datun Road, Chaoyang District, Beijing 100101, China
|
|
Data sharing policy
|
(1) Data
are openly available and can be free downloaded via the Internet; (2) End
users are encouraged to use Data subject to citation; (3)
Users, who are by definition also value-added service providers, are welcome
to redistribute Data subject to written permission from the GCdataPR Editorial
Office and the issuance of a Data redistribution license; and (4)
If Data
are used to compile new datasets, the ??ten per cent principal?? should be
followed such that Data records utilized should not
surpass 10% of the new dataset contents, while sources should be clearly
noted in suitable places in the new dataset[9]
|
|
Communication
and
searchable system
|
DOI,
CSTR, Crossref, DCI, CSCD, CNKI, SciEngine, WDS/ISC, GEOSS
|
3 Data Monitoring and Results
According
to the Convention on Wetlands, waterbirds are birds that depend on water
(wetlands) for their survival[2]. Waterbirds are easy to be observed
in wetland ecosystems, and they are in the position of the highest consumers.
They are one of the most important members of wetland ecosystems, and they are
also an indicator species to characterize the changes in the quality of
wetlands[2]. According to the characteristics of waterbird
reproduction and habitat and distribution in Qinghai Lake basin, the direct
counting method was used to investigate the number of bird populations in the
waterbird monitoring sample sites in the basin, and monocular and double-pass
telescopes and focus cameras were utilized to clearly identify the species of
waterbirds in the observation area, and to take photographs of the birds and
their habitats. The monitoring areas were mainly categorized according to
habitat types: estuarine wetlands, marshy meadows,
farmlands, freshwater lakes, riverine wetlands, river floodplains, peninsulas,
islands, etc.
Qinghai Lake is
the largest inland saltwater body in China, and it is also the breeding ground
and stopover site for many waterbirds along the Central Asia-India migration
route[10]. Specific monitoring sample sites were Jiangxigou,
Xiaohong Lake, Erhai Lake, Daotang River wetland, Heima River wetland, Xiaopohu
wetland, Naren wetland, Haergai estuary, Sha Dao, Dalian Lake, Ganzihe estuary,
Ganzihe wetland, Shaliuhe estuary, Xiannvwan wetland, Quanji estuary, Wu Shi Da
Lai quan, Ha Da Tan, Cormorant Island, Buha estuary, Shenghe estuary, Tie Bu
Jia wetland, Quanwan wetland, Ga Ri La wetland, Egg Island, Haixin Mountain,
and San Kuai Shi (Figure 1).
According to the ecological groups of
waterbirds, they are mainly divided into wading birds and swimming birds, which
mainly include sandpipers, cranes, plovers and herons, and swimming birds
mainly include some birds of ducks, grebes, gulls and cormorants[11].
Different waterbirds have different living habits, so their use and selection
of habitat, foraging and breeding sites are also different. In 2023, waterbird
monitoring, recorded a total of 46 species of birds, a total of 116,658 birds,
including one species of national-level waterbirds and five species of
national second-level waterbirds, two species of vulnerable waterbirds and five
species of near-threatened waterbirds, of which 96.56% of swimming birds, ducks
accounted for 74.49% of the swimming birds, and 3.44% of wading birds accounted
for 74.49% of swimming birds. Four of these waterbirds exceeded 10,000 birds,
Figure
1 Distribution map
of waterbird monitoring sample sites in the Qinghai Lake basin
namely,
the ruddy-billed diver duck, ruddy duck, common cormorant, and mottled goose.
Among them, 50,703 ruddy-billed ducks ranked first among all birds, accounting
for 43.46% of the total number of waterbirds and 58.35% of the total number of
ducks, mostly distributed in Naren wetland, Quanwan wetland, Tie Bu Jia
wetland, and the estuaries of Shaliu and Shenghe, where habitat types were
mainly estuarine wetlands and lakeshore marshes; 19,678 ruddy ducks ranked
second among all birds, accounting for 16.87% of the total number of waterfowl
and 22.64% of the total number of ducks. 22.64% of the total number of ducks,
were mainly distributed in Xiaohong Lake, Quanji estuary, Heima River wetland,
Tie Bu Jia wetland, Shenghe estuary and Buha estuary, and their habitat types
mainly include: estuary wetland and lakeside marsh. There are 14,313 common
cormorants, ranking third among all birds and accounting for 12.27% of the
total number of ducks. They were mainly distributed in Naren wetland, Cormorant
Island and San Kuai Shi, and their habitat types mainly include: lakeside
marsh, islands in the lake. There were 13,572 barnacle geese, ranking the
fourth among all birds and accounting for 11.63% of the total number, and
accounting for 15.62% of the total number of ducks, mainly distributed in Ha Da
Tan and Shenghe estuary, and their habitat types were mainly river manzanita
and estuarine wetlands.
There are more
than 1,000 waterfowl of 4 species: larus brunnicephalus, podiceps cristatus and
fulica atra. 11 waterfowl species of waterfowl were counted as individuals:
eight sterna hirundo, seven podiceps auritus, six Tringa ochropus, six arenaria
interpres, six chlidonias leucopterus, four charadrius leschenaultii, four
numenius arquata, two ardea purpurea, two anas clypeata, two pluvialis
squatarola, and two tringaerythropus.
The waterbird
monitoring in 2022 recorded 44 species and a total of 148,697 birds, including
one species of national-level waterbirds and four species of national-level
waterbirds, as well as one species of vulnerable waterbirds and six species of
near- threatened waterbirds[12]. The total number of waterbirds in
Naren wetland, Shaliuhe estuary, Quanwan wetland, Tie Bu Jia wetland, and Buha
estuary exceeded 10,000. Among them, the total number of ruddy-billed ducks was
61,265, which ranked the first in the waterbird category. The total number of
ruddy ducks was 20,304, ranking second among waterbird species. And the total
number of mottled geese was 12,664, which ranked the third in waterbird
category[12]. Compared with 2022, two new species of waterbird were
added in 2023, namely Anas clypeata and chlidonias leucopterus.
Compared with
the national second-degree waterbirds podiceps nigricollis, cygnus cygnus,
anser anser and arenaria interpres in 2022, there were new podiceps auritus,
numenius arquata and fewer grey cranes in 2023, and the podiceps auritus was
vulnerable according to the IUCN Red List of Threatened Species; the Naren
wetland, Quanwan wetland and the estuary of Tie Bu Jia wetland kept the record
of more than 10,000 waterbirds; and the survey of the second-degree waterbirds
in 2023 showed 583 podiceps nigricollis, mainly in Xiaohong Lake (114), Erhai
Lake (2), Shadao (1), Dalian Lake (56), and Tie Bu Jia wetland (1). Pelicans were
mainly in Xiaohong Lake (114), Erhai Sea (2), Shadao (1), Corset Lake (56),
Quanji estuary (300), Ha Da Tan (110). Cygnus cygnus were mainly in Dalian Lake
(1), Ganzihe wetland (1), Naren wetland (4), Quanji estuary (4). Podiceps
auritus were mainly in Shadao. Arenaria interpres were mainly at the mouth of
Shaliuhe estuary (4) and Xiannvwan wetland (2), and numenius arquata was mainly
at Naren wetland.
The distribution
of birds in Qinghai Lake is closely related to the distribution of food
resources, and the wetlands around the lake and at the estuaries are areas
where birds are concentrated[7]. Table 2 shows the basic information
of waterbirds?? habitats in the late breeding period in 2023, and Figure 2 shows
the photographic map of waterbirds for field monitoring in 2023.
Table
2 Basic
information on late breeding habitat of waterbirds in 2023
|
No.
|
Sample
name
|
Sample
plot number
|
Latitude
(N)
|
Longitude
(E)
|
Altitude
(m)
|
Number
of
species
|
Total
|
Habitat
type
|
|
1
|
Heima River
Wetland
|
6301010401
|
36.74??
|
99.79??
|
3,158.64
|
9
|
2,408
|
Herbaceous Swamp
|
|
2
|
Jiangxigou
|
6301010501
|
36.62??
|
100.13??
|
3,163
|
11
|
627
|
Agricultural land
|
|
3
|
Xiaohong Lake
|
6301010601
|
36.65??
|
100.36??
|
3,154
|
20
|
5,098
|
Freshwater Lake
|
|
4
|
Erhai Lake
|
6301010801
|
36.57??
|
100.74??
|
3,157
|
17
|
1,709
|
Freshwater Lake
|
|
5
|
Daotang River
Wetland
|
6301010901
|
36.57??
|
100.75??
|
3,209
|
15
|
324
|
Freshwater
River
|
|
6
|
Xiaopohu
Wetland
|
6301011001
|
36.70??
|
100.78??
|
3,192
|
4
|
120
|
Herbaceous
Swamp
|
|
7
|
Naren Wetland
|
6301011401
|
37.20??
|
100.28??
|
3,160
|
26
|
18,853
|
Swamp meadow
|
|
8
|
Hargai River
Estuary
|
6301011301
|
37.09??
|
100.39??
|
3,156
|
15
|
679
|
Estuarine
Wetland
|
|
9
|
Dalian Lake
|
6301011201
|
37.07??
|
100.47??
|
3,156
|
14
|
350
|
Freshwater Lake
|
|
10
|
Ganzihe Wetland
|
6301011202
|
37.05??
|
100.45??
|
3,156
|
16
|
348
|
Estuarine
Wetland
|
|
11
|
Ganzihe Estuary
|
6301011204
|
37.05??
|
100.45??
|
3,158
|
7
|
92
|
Estuarine
Wetland
|
|
12
|
Sha Dao
|
6301011101
|
36.87??
|
100.66??
|
3,262
|
20
|
5,956
|
Freshwater Lake
|
|
13
|
Shaliuhe Estuary
|
6301011501
|
37.20??
|
100.19??
|
3,154
|
19
|
4,942
|
Estuarine wetland
|
|
14
|
Xiannvwan Wetland
|
6301011601
|
37.20??
|
100.19??
|
3,147
|
23
|
1,144
|
Estuarine wetland
|
|
15
|
Quanji Estuary
|
6301011801
|
37.22??
|
99.87??
|
3,153
|
16
|
3,546
|
Estuarine wetland
|
|
16
|
Wu Shi Da Lai
quan
|
6301011901
|
37.21??
|
99.84??
|
3,158
|
8
|
485
|
Herbaceous Swamp
|
|
17
|
Ha Da Tan
|
6301012001
|
37.12??
|
99.73??
|
3,169
|
24
|
5,819
|
River manzanita
|
|
18
|
Cormorant
Island
|
6301012301
|
36.97??
|
99.89??
|
3,178
|
11
|
4,681
|
Lakeshore Peninsula
|
|
19
|
Buha Estuary
|
6301012601
|
36.97??
|
99.81??
|
3,204
|
21
|
8,637
|
Estuarine wetland
|
|
20
|
Shenghe Estuary
|
6301010101
|
36.96??
|
99.78??
|
3,200
|
17
|
10,482
|
Estuarine wetland
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
(To be continued on the next page)
(Continued)
|
No.
|
Sample
name
|
Sample
plot number
|
Latitude
(N)
|
Longitude
(E)
|
Altitude
(m)
|
Number
of
species
|
Total
|
Habitat
type
|
|
21
|
Tie Bu Jia
Wetland
|
6301010201
|
36.96??
|
99.71??
|
3,203
|
18
|
14,395
|
Estuarine wetland
|
|
22
|
Quanwan
Wetland
|
6301010301
|
36.95??
|
99.61??
|
3,184
|
12
|
18,698
|
Herbaceous Swamp
|
|
23
|
Ga Ri La
Wetland
|
6301010302
|
36.91??
|
99.61??
|
3,164
|
13
|
3,751
|
Swamp meadow
|
|
24
|
Haixin Mountain
|
6301012801
|
36.86??
|
100.12??
|
3,266
|
4
|
1,048
|
Islands in the Lake
|
|
25
|
San Kuai Shi
|
6301012701
|
36.79??
|
99.91??
|
3,200
|
4
|
2,285
|
Islands in theLake
|
|
26
|
Egg Island
|
6301012201
|
36.97??
|
99.87??
|
3,170
|
4
|
181
|
Lakeshore peninsula
|
|
Figure 2 Field monitoring waterbird photographs
(taken
in August
2023)
|
4 Dominant Species
Dominant
species were identified based on the number of individual birds as a percentage
of the total number of individuals (Pi)[13]
(see Table 3 for details):
(1)
where,
Ni is the
number of individuals of the ith
species; N is the total number of
individuals of all species in the community; Pi ??10% is designated as the dominant species; 1%?? Pi <10% is designated as
the common species; 0.1%?? Pi <1%
is designated as the rare species; and Pi
<0.1% is designated as the rare species.
Table
3 Assessment of
dominant species of waterbirds
|
No.
|
Waterfowl species name
|
Quantity
|
Dominant species/common
species/rare species/stranger species
|
|
1
|
Podiceps nigricollis
|
583
|
Rare species
|
|
2
|
Podiceps cristatus
|
3,398
|
Common species
|
|
3
|
Podiceps auritus
|
7
|
Stranger species
|
|
4
|
Phalacrocorax carbo
|
14,313
|
Dominant species
|
|
5
|
Ardea cinerea
|
59
|
Stranger species
|
|
6
|
Egretta alba
|
46
|
Stranger species
|
|
7
|
Cygnus cygnus
|
10
|
Stranger species
|
|
8
|
Anser anser
|
129
|
Rare species
|
|
9
|
Anser indicus
|
13,572
|
Dominant species
|
|
10
|
Tadorna ferruginea
|
19,678
|
Dominant species
|
|
11
|
Tadorna tadorna
|
22
|
Stranger species
|
|
12
|
Anas strepera
|
45
|
Stranger species
|
|
13
|
Anas penelope
|
30
|
Stranger species
|
|
14
|
Anas crecca
|
553
|
Rare species
|
|
15
|
Anas acuta
|
365
|
Rare species
|
|
16
|
Anas clypeata
|
2
|
Stranger species
|
|
17
|
Netta rufina
|
50,703
|
Dominant species
|
|
|
|
|
|
|
(To be continued on the next page)
(Continued)
|
No.
|
Waterfowl species name
|
Quantity
|
Dominant species/common
species/rare species/stranger species
|
|
18
|
Aythya ferina
|
814
|
Rare species
|
|
19
|
Mergus merganser
|
16
|
Stranger species
|
|
20
|
Aythya nyroca
|
96
|
Stranger species
|
|
21
|
Aythya fuligula
|
867
|
Rare species
|
|
22
|
Grus nigricollis
|
121
|
Rare species
|
|
23
|
Fulica atra
|
2,035
|
Common species
|
|
24
|
Himantopus novaezelandiae
|
570
|
Rare species
|
|
25
|
Recurvirostra avosetta
|
63
|
Stranger species
|
|
26
|
Vanellus vanellus
|
10
|
Stranger species
|
|
27
|
Pluvialis dominica
|
22
|
Stranger species
|
|
28
|
Charadrius alexandrinus
|
99
|
Stranger species
|
|
29
|
Charadrius mongolus
|
10
|
Stranger species
|
|
30
|
Charadrius leschenaultii
|
4
|
Stranger species
|
|
31
|
Limosa limosa
|
354
|
Rare species
|
|
32
|
Tringa totanus
|
493
|
Rare species
|
|
33
|
Tringaerythropus
|
2
|
Stranger species
|
|
34
|
Calidris ferruginea
|
37
|
Stranger species
|
|
35
|
Numenius arquata
|
4
|
Stranger species
|
|
36
|
Tringa glareola
|
11
|
Stranger species
|
|
37
|
Arenaria interpres
|
6
|
Stranger species
|
|
38
|
Calidris temminckii
|
47
|
Stranger species
|
|
39
|
Larus ichthyaetus
|
3,725
|
Common species
|
|
40
|
Larus brunnicephalus
|
3,496
|
Common species
|
|
41
|
Sterna hirundo
|
217
|
Rare species
|
|
42
|
Chlidonias leucopterus
|
6
|
Stranger species
|
|
43
|
Ardea purpurea
|
2
|
Stranger species
|
|
44
|
Sterna hirundo
|
8
|
Stranger species
|
|
45
|
Pluvialis squatarola
|
2
|
Stranger species
|
|
46
|
Tringa ochropus
|
6
|
Stranger species
|
Note: NT, Near
Threatened; VU, Vulnerable.
As shown in the
table below, in 2023, there were a total of 4 dominant species, 4 common
species, 11 rare species and 27 stranger species of waterbirds. According to
statistics, in 2021, there were 3 dominant species of waterbirds, 9 common species,
11 rare species, and 22 stranger species. In
2022, there were 2 dominant species of waterbirds, 8 common species, 11 rare
species, and 23 stranger species[12], which was a normal fluctuation
of waterbird species genus compared with the past two years.
5 Comparison of Bird Species Diversity and Evenness in
Different Habitats
In
order to monitor the distribution data of waterbird around Qinghai Lake in
August 2023, firstly, the data were initially integrated to determine the basic
distribution of species and genera, and the orders, families, species and
number of birds were counted and compared. Secondly, the Shannon-wiener index
was used to calculate the species diversity of birds in the whole monitoring
area in different habitats:
(2)
where,
H is the Shannon-wiener species
diversity index, Pi is the
proportion of individuals of species i in
the community, i.e., the ratio of the number of individuals of species i to the total number of individuals of
all species. The larger the value of H
is, the larger the amount of information contained in the community, and the
degree of complexity increases.
Pielou index was
used to calculate the evenness:
(3)
where,
E is Pielou species evenness index, H is Shannon-wiener species diversity
index, S is the total number of
species in the community (Table 4).
Table 4 Pielou species evenness index and Shannon-wiener species diversity of waterbirds
|
Habitat type
|
Number of species
|
Total
|
H
|
E
|
|
Universe
|
46
|
116,658
|
1.842
|
0.481
|
|
Herbaceous swamp
|
33
|
21,711
|
1.543
|
0.441
|
|
Freshwater Lake
|
29
|
13,113
|
1.753
|
0.521
|
|
Estuarine wetland
|
39
|
44,265
|
1.682
|
0.459
|
|
River manzanita
|
24
|
5,819
|
1.7
|
0.535
|
|
Islands in the Lake
|
8
|
3,333
|
0.775
|
0.373
|
|
Swamp meadow
|
39
|
22,604
|
1.724
|
0.471
|
|
Lakeshore peninsula
|
15
|
4,862
|
1.358
|
0.501
|
|
Agricultural land
|
11
|
627
|
1.261
|
0.526
|
|
Freshwater river
|
15
|
324
|
1.859
|
0.686
|
Note: The H and E index
are the Shannon-wiener species diversity index and the Pielou species evenness
index, respectively.
|
Figure 3 Distribution of waterbirds in
different habitats for field monitoring in 2023
|
It can be seen
that freshwater rivers have the highest H value, followed by freshwater lakes,
which indicates that freshwater lakes and freshwater rivers have the highest
species diversity using the Shannon-Wiener index to measure different habitats
in the Qinghai Lake area. As for the E-value, freshwater rivers and agricultural
land were the two habitats with the highest species unifromity, so the number
of individuals of different species in these two habitats was close to each
other, and there was no extremely high or low population size. Based on the
above data, we can draw a conclution that during the summer breeding season in
2023, freshwater rivers were the habitats with the highest diversity and
evenness of waterbirds around Qinghai Lake.
6 Summary
In
this paper, we conducted a basic analysis on the waterbird profile in Qinghai
Lake area in 2023, analyzed the changes in the dominant populations of local
waterbirds, the population dynamics and distribution of protected waterbirds,
which can be used for the subsequent ecological analysis, population dynamics
prediction, vacancy analysis of protected areas, etc. A total of 40,018
waterbirds were recorded in 2021, 148,697 in 2022[11], and 116,658
in 2023. Compared to 2021, the number of waterbirds increased rapidly in 2022. Compared
to 2022, and the number of waterbirds declined to a certain extent in 2023,
which is related to the loss and degradation of wetlands in recent years due to
exogenous factors, such as global warming, intervention of human activities, as
well as the use of monitoring tools[14]. Qinghai Lake is an
important international breeding site for waterbirds, and it is also an
important wintering site for waterbirds on the Qinghai-Tibet Plateau.
Therefore, in the next few years, we should continue to monitor the dynamics of
waterbirds in areas where waterbird activities are relatively frequent in the
Qinghai Lake basin as much as possible, so as to grasp the real-time
information of the dynamics of waterbirds and the habitat quality in the lake
in a short time. In the long run, we can accumulate data through a
comprehensive survey to clarify the background of the changing trend of the
lake, and thus provide a better solution to the problem of the lake and its
habitat. The data accumulated through the comprehensive survey can be used to
find out the background and changing trend of waterbirds in Qinghai Lake, thus
providing standardized, effective, accurate and real-time basic data support
for the establishment of Qinghai Lake National Park and ecological protection.
Author Contributions
Li,
Y., Li, X. Y., and Chen, K. L. did the overall design of the development of the
dataset; Li, Y., Li, X. Y., Chen, Z., Sun, J. Q., Wang, S. Y., Wang, M. Y.,
Yang, J. P., and Chen, Y. R. collected and processed all of the data; and Li, Y.
wrote the data paper.
Conflicts of Interest
The authors declare no conflicts of
interest.
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