Biodiversity Data Journal 11: e97884 OO)
doi: 10.3897/BDJ.11.e97884 open access
Data Paper

Non-native fish of the Upper Irtysh and the

Ulungur Rivers in China

Chen Tian*§, Lei Fang!, Xuejian Li$-1, Yonghua Lil, Tianjian Song!, Jiang Chang!, Cungi Liu,
Yahui Zhao’

+ College of life sciences, Hebei University, Baoding, China

§ Key Laboratory of the Zoological Systematics and Evolution, Institute of Zoology, Chinese Academy of Sciences, Beijing,
China

| State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environmental
Sciences, Beijing, China

q Institute of Shandong River Wetlands, Jinan, China

Corresponding author: Cungi Liu (Icgq@hbu.edu.cn), Yahui Zhao (Zhaoyh@ioz.ac.cn)
Academic editor: Paramasivam Kodeeswaran
Received: 23 Nov 2022 | Accepted: 12 Jan 2023 | Published: 17 Jan 2023

Citation: Tian C, Fang L, Li X, Li Y, Song T, Chang J, Liu C, Zhao Y (2023) Non-native fish of the Upper Irtysh
and the Ulungur Rivers in China. Biodiversity Data Journal 11: e97884. https://doi.org/10.3897/BDJ.11.e97884

Abstract

Background

The Chinese section of the Irtysh River Basin and the Ulungur River Basin, two major river
basins of the Altay region, are located at the northwest of Xinjiang Uygur Autonomous
Region of China. As an international river, the Chinese section has seven state-level
protected fish and seven local-level protected species as well. Many more commercial
species have been introduced from eastern China and other countries, accompanied by
some low-value and small-sized fish in recent decades. The non-native fish species have
already threatened these protected fish. This study investigated the distribution of non-
native fish species in the Chinese section of the Irtysh River Basin and the Ulungur River
Basin. The basic data for the biodiversity conservation and the information of the non-
native fish in these two river basins were gathered.

© Tian C et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY
4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are
credited.

2 Tian C et al

New information

There are a lot of studies on native fish in the Chinese section of the Irtysh River Basin and
Urungur River Basin in China, but there is a lack of studies on non-native fish. Thirteen
non-native fish belonging to four orders, nine families and 12 genera were collected in this
study. The study includes one dataset. The dataset presents taxonomy, distribution, water
body and location for each of the non-native fish collected from the Chinese section of the
Irtysh River Basin and the Ulungur River Basin. Our study has found that the proportion of
native species has declined, while the number of non-native species has increased from
2013 to 2022. The information we provided could help to develop an international strategy
for the protection of aquatic biodiversity.

Keywords

Altay region, distribution, non-native fish, endangered species

Introduction

The Altay region, bordering Russia, Kazakhstan and Mongolia, is located in the northern
part of the Xinjiang Uygur Autonomous Region of China. The Irtysh River and the Ulungur
River (http:/Awww.feow.org/ecoregions/details/603) are two important rivers in the Altay
region. The Irtysh River, an essential international river, is the second largest river in
Xinjiang and it is also the only river in China that flows into the Arctic Ocean (Duman and
Nadila 2017). The Irtysh River originates from the southern slope of the Altai Mountains
and the confluence of the Kayierte River and the Kuyierte River forms the Irtysh River in
Koktokay (Dong and Li 2010). The total length of the Irtysh River is 4,248 km, of which the
length of the Chinese section is 546 km, with a drainage area of 57,000 km? and an annual
runoff of approximately 11.1 billion m? (Li et al. 2020). The main tributaries of the Chinese
section of the Irtysh River that includes the Kelan, Buerjin, Haba and Bieliezeke Rivers, join
from the north bank, making the Irtysh River Basin as a "comb-shaped" water system (Ren
et al. 2002).

The Ulungur River, the second largest river in the Altay region, originates from the Altai
Mountains in Qinghe County, with a total length of 821 km, a drainage area of 61,400 km?
and an annual runoff of about 1.07 billion m° (Nurlan 2014). The Irtysh River and the
Ulungur River were originally two independent water systems in Late Pleistocene (Vang
2010). Due to the construction of a 3 km-long canal in 1986-1987, the Ulungur Lake, into
which the Ulungur River drains, has become a subsidiary water body of the Irtysh River
(Liu 2015).

A historical survey reported 22 native fish species in the upper reaches of the Irtysh River
(Chinese section) and the Ulungur River Basins (Li et al. 1966, Guo et al. 2003, Huo et al.
2010, Yang et al. 2016). Although they only constitute 1.6% amongst the 1363 native fishes
in China, they are very essential and unique in the distribution of inland fish in China

Non-native fish of the Upper Irtysh and the Ulungur Rivers in China 3

(Zhang and Zhao 2016). Seven fish species have been listed as nationally protected
species, i.e. Acipenser baerii, Acipenser ruthenus, Hucho taimen, Brachymystax lenok,
Stenodus leucichthys, Thymallus arcticus and Lethenteron camtschaticum. Non-native fish
species have been suggested as being one of the most important factors that threaten
biodiversity (Vitule et al. 2009, Reid et al. 2019, Su et al. 2021). To further protect native
fish species in this area, it is imperative to monitor the distribution and current status of
non-native fish species. Therefore, we conducted surveys on non-native fish species of the
Chinese section of the Irtysh River Basin and the Ulungur River Basin from 2013 to 2022.
The results provide basic data for the comprehensive assessment and protection of native
fish diversity in the basins.

Sampling methods

Sampling description: Fish specimens were collected at 46 sites of the Irtysh River Basin
and 30 sites of the Ulungur River Basin from 2013 to 2022 (Fig. 1). Samples were collected
by hand net (dense mesh), cast net (aperture 1 cmx1 cm, diameter 5 m, length 3.5 m) and
traps (aperture 0.5 cmx0.5 cm, length 10 m) in a variety of aquatic environments. Samples
were collected by hand net and cast net in fast-flowing and shallow waters. Traps were
used in slow-flowing waters and pools. Four traps were usually placed at the sampling
point for 12 h overnight. The collection time using the hand nets is one hour. When using
cast-net sampling, a single sampling point is collected for 30 minutes. The specimens were
fixed in 95% ethanol or 10% formaldehyde solution in the field. Coordinates of sampling
localities were recorded by hand-held GPS locator. The specimens were stored in 75%
ethanol in the National Zoological Museum, Institute of Zoology, Chinese Academy of
Sciences (ASIZB).

4 Collecting sites

River

' Lake

85° E 86° E 87° E 88° E 89° E 90° E OPE
Figure 1. | doi

Location of the sampling sites.

4 Tian C et al

Step description: Fish species were identified by two professional fish taxonomists each
time and referred to literature on fish species of the Irtysh River and the Ulungur River
(Institute of Zoology of Chinese Academy of Sciences et al. 1979, Wu 1982, Chen 1998, Le
2000, Wu and Zhong 2008). Valid species names were in accordance with the taxonomic
literature (Zhang et al. 2020, Fricke et al. 2022).

Geographic coverage

Description: We surveyed the Chinese section of the Irtysh River Basin and the Ulungur
River Basin, covering various habitats, including swift-flowing waters, running waters and
pools. The collection sites were marked by ArcGIS 10.2 software.

Coordinates: 46.050 and 48.2233627 Latitude; 90.83 and 85.5708 Longitude.

Taxonomic coverage

Description: In total, four orders, nine families, 12 genera and 13 non-native fish were
collected in the Irtysh River Basin (Chinese section) and the Ulungur River Basin.
Specimen photos of the non-native fish species are presented in Fig. 2.

30mm

Figure 2. EES

Specimen photos of some fish species collected from the Irtysh River Basin (Chinese section)
and the Ulungur River Basin. a Abramis brama (Linnaeus, 1758); b Sander /ucioperca
(Linnaeus, 1758); c Ctenopharyngodon idella (Valenciennes, 1844); d Cyprinus carpio
Linnaeus, 1758; e Carassius auratus (Linnaeus, 1758); f Abbottina rivularis (Basilewsky,
1855); g Pseudorasbora parva (Temminck & Schlegel, 1846); h Hypomesus olidus (Pallas,
1814): i Micropercops swinhonis (Gunther, 1873); j Misgurnus dabryanus (Dabry de Thiersant,
1872): k Triplophysa strauchii (Kessler, 1874); | Misgurnus anguillicaudatus (Cantor, 1842); m
Hedinichthys minuta (Li, 1966).

Taxa included:

Rank
kingdom
phylum
Class
order
order
order
order
family
family
family
family
family
family
family
family
family
subfamily
subfamily
subfamily
genus
genus
genus
genus
genus
genus
genus
genus
genus

genus

Non-native fish of the Upper Irtysh and the Ulungur Rivers in China

Scientific Name

Animalia

Chordata

Actinopterygii

Cypriniformes

Perciformes

Gobiiformes

Osmeriformes

Cobitidae

Cyprinidae

Gobionidae

Leuciscidae

Nemacheilidae

Percidae

Odontobutidae

Osmeridae

Xenocyprididae

Cyprininae

Leuciscinae

Luciopercinae

Abbottina Jordan et Fowler, 1903
Abramis Cuvier, 1816
Ctenopharyngodon Steindachner, 1866
Cyprinus Linnaeus, 1758
Carassius Jarocki, 1882
Hypomesus Gill, 1862
Micropercops Fowler et Bean, 1920
Misgurnus Lacépéde, 1803
Pseudorasbora Bleeker, 1860

Sander Oken, 1817

6 Tian C et al

genus Triplophysa Rendahl, 1933

genus Hedinichthys Rendahl, 1933

species Abbottina rivularis (Basilewsky, 1855)

species Abramis brama (Linnaeus, 1758)

species Ctenopharyngodon idella (Valenciennes, 1844)
species Cyprinus carpio Linnaeus, 1758

species Carassius auratus (Linnaeus, 1758)

species Hypomesus olidus (Pallas, 1814)

species Micropercops swinhonis (Gunther, 1873)

species Misgurnus anguillicaudatus (Cantor, 1842)
species Misgurnus dabryanus (Dabry de Thiersant, 1872)
species Pseudorasbora parva (Temminck et Schlegel, 1846)
species Sander lucioperca (Linnaeus, 1758)

species Triplophysa strauchii (Kessler, 1874)

species Hedinichthys minuta (Li, 1966)

Temporal coverage

Data range: 2013-9-04 - 2013-9-11; 2014-9-12 - 2014-9-18; 2015-7-19 - 2015-7-24;
2016-7-16 - 2016-7-24; 2022-7-01 - 2022-7-24.

Usage licence

Usage licence: Creative Commons Public Domain Waiver (CC-Zero)

Data resources
Data package title: Non-native fish of the Upper Irtysh and the Ulungur Rivers in China
Number of data sets: 1
Data set name: Non-native fish of the Upper Irtysh and the Ulungur Rivers in China
Download URL: https://ipt.pensoft.net/archive.do?r=x-j&v=1.0
Data format: Darwin Core

Description: The dataset presents 13 non-native fish detected in the Chinese section
of the Irtysh River Basin and the Ulungur River Basin, with a total of 151 data records

Non-native fish of the Upper Irtysh and the Ulungur Rivers in China rs

and the number of fish being 2417. The important information including taxonomic,
geographic location of the occurrence, water body and event date were provided for 13
non-native fish species (Suppl. material 1).

Column label
occurrencelD
catalogNumber
basisOfRecord
eventDate
scientificName
kingdom
phylum

class

order

family

subfamily

genus

taxonRank

ownerlnstitutionCode

individualCount

recordedBy

identifiedBy

decimalLatitude

decimalLongitude

maximumElevationInMetres

geodeticDatum

Column description

An identifier for the Occurrence.

An identifier for collected specimens.

The specific nature of the data record.

The date during which an Event occurred.

The full scientific name.

The full scientific name of the kingdom in which the taxon is classified.
The full scientific name of the phylum in which the taxon is classified.
The full scientific name of the class in which the taxon is classified.
The full scientific name of the order in which the taxon is classified.
The full scientific name of the family in which the taxon is classified.

The full scientific name of the subfamily in which the taxon is classified. No

subfamily is represented by NA.
The full scientific name of the genus in which the taxon is classified.

The taxonomic rank of the most specific name in the scientific Name as it appears

in the original record.

The name (or acronym) in use by the institution having ownership of the object(s)

or information referred to in the record.

The number of individuals represented present at the time and location of the

Occurrence.

A list (concatenated and separated) of names of people, groups or organisations

who record the information of the Taxon when collected.

Alist (concatenated and separated) of names of people, groups or organisations

who assigned the Taxon to the subject.

The geographic latitude (in decimal degrees, using the spatial reference system

given in geodeticDatum) of the geographic centre of a Location.

The geographic longitude (in decimal degrees, using the spatial reference system

given in geodeticDatum) of the geographic centre of a Location.

The geographic elevation (in metres, using the spatial reference system given in

geodeticDatum) of the geographic centre of a Location.

The geographic information system (GIS) upon which the geographic coordinates

given in decimalLatitude, decimalLongitude and metreElevation are based.

Tian C et al

coordinateUncertaintyInMetres The horizontal distance (in metres) from the given decimalLatitude and

locality
country

stateProvince

municipality

waterBody

decimalLongitude describing the smallest circle containing the whole of the
Location. Leave the value empty if the uncertainty is unknown, cannot be
estimated or is not applicable (because there are no coordinates). Zero is nota

valid value for this term.
The specific description of the county from where specimens are collected.
The name of the country or major administrative unit in which the Location occurs.

The name of the next smallest administrative region than country (state, province,
canton, department, region etc.) in which the Location occurs.

The full, unabbreviated name of the next smallest administrative region than

county (city, municipality etc.) in which the Location occurs.

The name of the water body in which the Location occurs.

Additional information

Thirteen non-native fish species in these two river basins account for 44.8% of the total fish
species that we surveyed. Cypriniformes is the predominant order, accounting for 76.9% of
the total number of non-native fish species. Perciformes, Gobiiformes and Osmeriformes
account for 7.7% of the total number of non-native fish species, respectively (Fig. 3).

WM Cypriniformes
MWS Cobiiformes
WH Osmeriformes
MMMM Perciformes

17%

Figure 3. EES

The fish composition of the Chinese section of the Irtysh River Basin and the Ulungur River

Basin at the order level.

The introduction information about the 13 non-native fish species in this survey is shown in
Table 1. Cyprinus carpio was introduced to Lake Zaysan of the Irtysh River by the former
Soviet Union in 1934 and 1935 and then it spread to the Irtysh River of China (Guo et al.
2003). Abramis brama and Sander lucioperca, both naturally distributed in the Caspian

Non-native fish of the Upper Irtysh and the Ulungur Rivers in China 9

Sea Basin (Fricke et al. 2022), were introduced to the Iset River Basin of Russia by the
former Soviet Union from 1959 to 1964 (Ren et al. 2002). Then they rapidly expanded to
the Chinese section of the Irtysh River and Ulungur Lake after its artificial connection to the
Irtysh River in 1970 (Ren et al. 2002). Hypomesus olidus is naturally distributed in the
Arctic Ocean and North Pacific (Fricke et al. 2022). In April 1989, Hypomesus olidus of
Shuifeng Reservoir in Liaoning Province was successfully transplanted in Chaiwopu Lake
in Urumgi, Xinjiang and then it was transplanted to the Ulungur Lake and other waters of
Xinjiang in 1991 (Ren et al. 2002, Chen 2012). In 2013 and 2014, we recorded Misgurnus
dabryanus and Misgurnus anguillicaudatus in the Irtysh River Basin for the first time, but
not in the Ulungur River Basin. In the 2022 survey, Misgurnus dabryanus and Misgurnus
anguillicaudatus were already recorded in the Ulungur River Basin. Ctenopharyngodon
[della and Carassius auratus have been transplanted to the Irtysh River and Ulungur Lake
since the 1980s. Meantime, some small-sized fish, such as Pseudorasbora parva,
Abbottina rivularis and Micropercops swinhonis, were also brought with those commercial
species from eastern China (Jiang and Huo 2013). Triplophysa strauchii and Hedinichthys
minuta that found their way into the Irtysh River Basin may have been caused by the
introduction of Cyprinus carpio and Carassius auratus from Turpan Fishery in Xinjiang
Uygur Autonomous Region in the 1990s (Xie et al. 2021). To sum up, three fish species
were introduced from abroad amongst the 13 non-native fish in the Chinese section of the
Irtysh River and Ulungur River Basins, including Cyprinus carpio, Abramis brama and
Sander lucioperca. Ten fish species were introduced from other rivers of China, including
Misgurnus dabryanus, Misgurnus anguillicaudatus, Ctenopharyngodon Idella, Carassius
auratus, Hypomesus olidus, Pseudorasbora parva, Abbottina rivularis and Micropercops
swinhonis, Triplophysa strauchii and Hedinichthys minuta, with the first five being active
introduction and the last five being passive introduction.

Table 1.

The introduction information about the 13 non-native fish species investigated.

Species Introduction place Introduction way Introduction time
Domestic Foreign Active Passive
Cyprinus carpio + + 1934-1935
Abramis brama + + 1959-1970
Sander lucioperca + + 1959-1970
Ctenopharyngodon Idella + + 1980s
Carassius auratus + + 1980s
Hypomesus olidus + + 1991
Pseudorasbora parva + + 1980s
Abbottina rivularis + + 1980s
Micropercops swinhonis + + 1980s

Triplophysa strauchii + + 1990s

10 Tian C et al

Species Introduction place Introduction way Introduction time
Domestic Foreign _ Active Passive

Hedinichthys minuta + + 1990s

Misgurnus dabryanus + + Uknown

Misgurnus anguillicaudatus + + Uknown

Niche overlap is usually high between native species and non-native species and intense
competition may cause the rapid decline and even the extinction of native populations
(Hardin 1960, Bahn et al. 2008). The highly invasive Pseudorasbora parva and Carassius
auratus encroach on the ecological niche of native fish to some extent (Zhang et al. 2014).
The natural hybrids of the Abramis brama and Rutilus lacustris are all over the Irtysh River
and Ulungu Lake (Jiang and Huo 2013). The genetic exchange between the Abramis
brama and R. lacustris may lead to the genetic erosion or even the extinction of the R.
lacustris (Zeng 2004, Xu et al. 2004). The population of Perca fluviatilis has declined
sharply due to the increasing number of Hypomesus olidus that feed on fish eggs in the
Ulungur Lake (Tang et al. 2009, Chen 2012). The length range of Leuciscus baicalensis
was 19-23 cm and the weight range was 100-180 g in 1961, while the length range of this
fish had decreased to 10-15 cm and the average weight range was only 100 g by the
1980s (Wang 1984). This is not only due to the overfishing, but also due to the introduction
of non-native species. A total of 16 native fish and 13 non-native fish were investigated in
the Chinese section of the Irtysh River and the Ulungur River Basins from 2013 to 2022.
Compared with the historical records (22 native species), the number of native species
decreased, while non-native species increased (Fig. 4). The number of individuals of non-
native fish accounted for an increasing proportion of total catches during the survey period
(Fig. 5). The decline in the number of native species is partly due to an increase in non-
native species. There are seven rare and endangered fish species in the Chinese section
of the Irtysh River Basin and the Ulungur River Basin, i.e. Acijpenser baeni, Acipenser
ruthenus, Hucho taimen, Stenodus leucichthys, Thymallus arcticus, Cottus dzungaricus
and Brachymystax lenok (Zhang and Cao 2021, IUCN 2022). These endangered species
account for 31.8% of the total number of native fish species (22 species) in Altay region.
There are 14 national and local protected species in total, accounting for 63.6% of the
native species in Altay region (Table 2). The proportion of the endangered fish species in
the two Basins are even higher than some major rivers basins in China, such as the
Yangtze and Yellow Rivers (Cao et al. 2016), indicating that the protection of fish in the
Altay region is important in Xinjiang and even to China as a whole. In the future, with the
increasing species and quantity of non-native species and the construction of some water
conservancy projects, native species will face great pressure to survive. The data we
provided are helpful to understand the current distribution of non-native species in Altay
region. It can complement the database of non-native species of Xinjiang and even in the
country, which plays an essential role in dealing with non-native species invasion and
ecological protection construction. Therefore, it is essential to continuously monitor these
non-native fish in the Upper Irtysh and the Ulungur Rivers in China and to further explore
the specific impacts of these non-native species.

Non-native fish of the Upper Irtysh and the Ulungur Rivers in China

Table 2.

The information about 14 protected species in the Altay region.

Species Protection level Red List of China’s
Vertebrates level
National Local

Acipenser baerii* + CR

Acipenser ruthenus* + EN

Hucho taimen + EN
Brachymystax lenok + EN

Stenodus leucichthys* + RE

Thymallus arcticus* + VU

Tinca tinca* # LC

Leuciscus idus* + LC
Gymnocephalus cernua* +

Cottus dzungaricus* + VU

Rutilus lacustris* + LC

Lethenteron camtschaticum + LC

Carassius Carassius* + LC

Lota lota + LC

* In China, it is only found naturally in the Chinese section of the Irtysh River and the Ulungur River Basins; RE:
Regionally Extinct, CR: Critically Endangered, EN: Endangered, VU: Vulnerable, LC: Least Concern, DD: Data
Deficient.

Native fish

[|__| Non-native fish

Number of species

2013 2014 2015 2016 2022 Total

Year

Figure 4. EES]

The number of native fish species and non-native fish species in different years in the the
Chinese section of the Irtysh River Basin and the Ulungur River Basin.

12 Tian C et al

[Native fish
[ime]

Non-native fish

% individuals

jam | fam [|

2013 2014 2015 2016 2022

Year

Figure 5. EES

The proportion of native fish quantity and non-native fish to total quantity in different years in
the the Chinese section of the Irtysh River Basin and the Ulungur River Basin.

Acknowledgements

This work was supported by the Third Xinjiang Scientific Expedition Program (Grant No.
2021xjkkO600) and National Science and Technology Basic Research Program (No.
2013FY110300). The authors appreciate Chunguang Zhang, Yingchun Xing, Tianci Zhang,
Xiaojing Song, Yaming Bao, Jingming Liu, Haolin Li, Binbin Lv, Xinxin Li, Dong Sheng, Jue
Bai and Yu Wang for organising and participating in the fieldwork.

Author contributions

Yahui Zhao, Chen Tian, Lei Fang, Xuejian Li, Yonghua Li, Tianjian Song, Dong Sheng -
fieldwork, species identification, dataset compilation. Chen Tian, Yahui Zhao, Cundi Liu,
Jiang Chang - dataset preparation, data analysis, manuscript preparation. Note: Chen Tian
and Lei Fang are co-first authors.

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Non-native fish of the Upper Irtysh and the Ulungur Rivers in China 15

Supplementary material

Suppl. material 1: Fish taxon-occurrences EE]

Authors: authors of this paper

Data type: taxon-occurrences

Brief description: Collected non-native fish taxon-occurrences of the Chinese section of Irtysh
River Basin and Ulungur River Basin, Xinjiang, China.

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