HAO Cui-Lan, YUE Cheng, YAO Wei-Jian, YIN Jian-Guo, JIAO Li, ZHU Meng-Ying and WANG Xin

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POPULATION DYNAMICS OF DACTYLOGYRUS AND A NEW RECORD ONINLINNAEUS IN IRTYSH RIVER OF CHINA

HAO Cui-Lan1, YUE Cheng1, YAO Wei-Jian2, YIN Jian-Guo3, JIAO Li4, ZHU Meng-Ying1and WANG Xin1

(1. College of Veterinary Medicine, Xinjiang Agricultural University, Urumqi 830052, China; 2. Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, China; 3. The Irtysh River Specialty Fish Ambulance Center of 10th Agricultural Division of the Production and Construction Corps of Xinjiang, Beitun 836000, China; 4. College of Animal Science, Xinjiang Agricultural University, Urumqi 830052, China)

This paper revealed the population dynamics ofon the gills ofLi-n-naeus by field investigation from April 2009 to July 2012 in Irtysh RiverThe results showed that threespecies infectincludingand, and their infection rate was 28.47% and mean infection intensity was 7.39 (1—42). The prevalence was varying among host body length () groups, as the infection rate was the highest (50%) in>30 cm, but thewas zero in<10 cm.was in the aggregation distribution mode in different groups. The infection intensity showed no significant difference (>0.05) among different groups. Population ofin host was aggregated distribution in different groups. AofLinnaeus was collected from the Irtysh River, Northwest China. The specimens were identified asLinsyow (1878) according to morphological characteristics, and represent the first record in China. The main morphological characteristics were described and drawn, and also compared to those from the gills of other species ofin China.

;; Population dynamics;; New record

Irtysh River originates from the Sino-Mongolian border and locates in the abdomen of Eurasia. Its upstream locates in the northeastern part of theAltaiMountains in Xinjiang of China. With a length of 633 km and a drainage area of 53700 km2, it is one of the three major rivers in Xinjiang and the only Arctic drainage international river in China[1]. Because of development formation, geographic landform characteristics and multifarious downstream drainage features, Irtysh River has gestated some special fishes, such asLinnaeus, which distribute in Europe, Northwest Asia, and China (restricted to Irtysh River and its subsidiary waters)[2]. The parasi-tism of,andin fish gill department of Monogenea, Dactylogyridae Bychowsky, and Dactylogyrus Diesing can cause certain harm to the host[3],andwere first discovered in Irtysh River in China in 2009, reported in 2011, and already described by some authors[4], butwas collected fromgills, which has not been reported[3—8]. After identification according to the unreported data retrieval in China[3, 5, 7—9],belongs to Dactylogyridae, Dactylogyrus, as China’s new Monogenea record. The specimens were observed under optical microscope (measurements in mm) and a diagram about its cha-racteristics was drawn. The specimens are preserved in Parasite Specimen Room, Animal Veterinary College of Xinjiang Agricultural University.

1 Materials and Methods

was collected from Ha Bahe and Bei Tun reaches of Irtysh River basin. After the host gills were taken down and physiological saline was dropped in glass, parasites were picked up in anatomical lens and fixed with 75% alcohol. The parasites were fixed as seal pieces by 4% poly (vinyl alcohol) lactic phenol, their chitin structure was measured under microscope, and a characteristic diagram was drawn. The specific species were identified on the basis of literature[3—13].

was divided into 6 body individual length () groups:<10 cm, 10 cm≤<15 cm, 15 cm≤<20 cm, 20 cm≤<25 cm, 25 cm≤<30 cm, 30 cm≤, Statistics for each body length group ofincludes prevalence, average infection intensity, va-riance-mean ratio2/, parameter of negative binomial distribution, average degree of congestion, and diffusivity index. T-test was used to detect the significance of inter-group difference in the infecting effect ofon the hosts[14].

2 Results

2.1 Infection of Dactylogyrusin Leuciscus idus

Of the 144Linnaeus collected from April 2009 to July 2012, the prevalence of infection by Dactylogyruswas 28.47%. During this period, 303 specimens ofwere examined including,,. The number ofin a fish was about 42 at most. The body length () ofLinnaeus was divided from small to large into different groups every 5 cm. The results showed that in<10 cm,was not found. The highest infection rate of host was in 30 cm<, but the infection intensity was relatively low. Infections of the different body length groups ofLinnaeus were shown in Fig.1.

The significance test results of infection intensity diffe-rences in different length groups ofLinnaeus were shown in Tab. 1. In terms of infection intensities between segments, the visible host of<10 cm differed significantly from 15≤＜20 cm, and 30 cm≤, but no significant di-fferences existed in the rest body length groups.

2.2 Aggregation Index of Dactylogyrusin Leu-ciscus idus

The diffusion index () means crowding degree() and variance-to-mean ratio (2/) were greater than 1 in each length group except<10 cm; the distribution type was measured according to the judgment of population ecology, and the results showed that Dactylogyrus was in aggregated distribution in each body length group. Values of negative binomial parameter () were different among different body length groups and showed different aggregation intensities of Dactylogyrus population. The population distribution pattern of Dactylogyrus inwas shown in Tab. 2.

Fig. 1 Infection rate and mean infection intensity of Dactylogyrus in different body length group

2.3 Dactylogyrus alatus, Linsyow, 1878 f. major Sidorov 1956 (Fig. 1)

The host:Linnaeus, and Site of infection: Gill filaments Locality: Habahe River of Irtysh River reach (48°05′–48°10′ N, 86°32′–86°37′ E).Acquisition time: 2009—2012.

Description: Large worms have a length of 0.85— 1.35 mm and a width of 0.21—0.30 mm. Length of hooklet: 0.0152—0.0339 mm. Median hooks were massive, with powerful processes, particularly inner processes, which expand terminally; their length equaled to base or larger, and external process were at least half as large as base. Median hooks had an overall length of 0.0438—0.0458 mm, a shaft of 0.0241—0.0258 mm, point of 0.0132—0.0160 mm, inner root of 0.0238— 0.0256 mm, and outer root of 0.0102—0.0124 mm. Connecting bar: (0.0058—0.0081)×(0.0152—0.0333) mm. Copulatory organ: about 0.042—0.0657 mm, diameter of tube: over 0.0015 mm (Fig. 2).

Tab.1 Significance test of infection intensity among the different host body length groups of Leuciscus idus

Tab. 2 The aggregation indices of Dactylogyrusamong different body length groups of Leuciscus idus

Morphological description:

2.4 The main morphologic characteristics ofwere compared to those from the gills of other species ofLinnaeus in China (Tab. 3)

3 Discussion

Monogenea belongs to platyhelminthes and chooses fish as the main parasitic object. It has a wide range, diverse morphology, and a high degree of specificity to the host. Monogenea is also a good material to study the formation of species, common evolution, structure and function, ontogeny, ultrastructure, experimental ecology animal geography and other relevant issues. At present a lot of Monogenea has been reported[4,15—19].

Sampling statistics showed thatwas infected by three Dactylogyrus species:,, and. The total infection rate andthe mean infection intensity ofwere 28.47% and 7.39, respectively, and were relatively small. The study showed that environmental factors that affect Monogenea included light, temperature, oxygen, host and water. Since Monogenea mainly parasitizes hosts in vitro, the low temperature conditions are detrimental to their breeding, development and growth[3]. Irtysh River has a cold continental climate, high latitudes, a sunshine rate of 62.0%—71.0%, and slightly alkaline pH in tributaries and the main stream. Its hydrochemical type is heavy carbon salt, calcium and II-type, and the basin during floods is relatively large[1]. The survey showed that total infection rate and infection intensity of Dactylogyrus were low in thepopulations, because the Irtysh River’s low water temperature, flow and water chemistry type are not conducive to the breeding and growth of Dactylogyrus.

Fig. 2 Dactylogyrus alatus f. major, Linsyow, 1878

I: Opisthohapter elements: 1.Median hook; 2.Connecting bar; 3.Marginal hooklet; II: Copulatory organ

Tab. 3 Measurements of the new record compared to species recorded from L. idusLinnaeus in China (mm)

Note: “—” means no data

The statistics of Dactylogyru on different host body length groups shows that, with the increase of host body length, the Dactylogyrus infection rate has gradually increased except for 20≤<25, and the infection intensities were decreased, except<10 which showed no infection. The water ecological environment in Irtysh River and the interspecific competition of parasites impact the above characteristics. Although the cold water environment of Irtysh River is not conducive to survival of Dactylogyrus, Irtysh River Basin enjoys species diversity and biomass, and this environment has created favorable conditions for the development and reproduction of fish parasites. Therefore, there are many differences and infection characteristics between the types of parasites[1]. The survey shows that three Dactylogyrus were detected in the gills of. And the infected host populations were in an aggregated distribution mode, indicating that the majority of the host is not or infected with a small amount of Dactylogyrus. A large number of Dactylogyrus parasitize in the relatively minority of host, sois lower, and the gathering strength is higher[20]. Aggregated distribution is the most common distribution mode, so the vast majority of the parasite populations in their host populations also showed aggregated distribution. This also means the effects of parasite on host populations will be minimized[21]. The three Dactylogyrus parasites on the gills of host all belong to the resource (niche), the use of a competitive relationship. In most cases, the parasites compete for living space niche, and the community structure in the different life stages of the host may vary[22]. The reason may be that the parasite’s parasitization makes the host weak and thus more susceptible to other parasites. It may also be that a parasite prepares another parasite for microenvironment.

Many types of Monogenea were found in China’s inland water bodies[3]. In China, more than 570 species of Monogenea were found, and they belong to 9 fami-lies and 46 genera. The widest range is Dactylogyridae, which accounts for about 63% of Monogenea and the most diverse is Dactylogyrus. Dactylogyrus has 600 species in the world and more than 370 species in China, buthas not been reported by the data retrieval in China[3, 5].

Irtysh River locates in Northwest China, the center of the hinterland of Eurasia. It flows from east and west to the frontier, enters into the Lake Zaysan, gathers at the Ob River and flows to the Arctic Ocean, which is different from the continental rivers in Xinjiang that constitute a natural feature of centripetal drainage. From the division of world freshwater fishes, it belongs to the north boundary, the whole north district, circumference pole subregion of Siberian partition, and frontal river. The Arctic cold water fishes migrating to the upstream tributary have egg-laying habits[23], so the Arctic drainage fishes that carry a parasite may appear in the upstream. This in certain conditions causes the fish parasites flora composition in frontal river (China section), which is similar to the parasites of central Asia and Europe, but different from Chinese inland water parasities.belongs to Cypriniformes, Cyprinidae, and Leuciscus subfamily, which is distributed from northern Europe to Siberia drainage, and in China it only distributes in Xin-jiang Irtysh River within the territory of the main stream, which is one of the major native Irtysh fishes. The historic distribution ofis almost the same as, and this should be caused by the host’s migration. Under certain conditions, the Arctic drainage fish that carries a parasite may appear in the upstream. To a certain extent it determines that the flora composition of fish parasites in Irtysh River (China section) is different from that of domestic water fish parasites. So within the territory of China, in the upstream section and middle and lower reaches of Siberia, it will not be surprising there is a common fish composition and parasitic species. The discovery ofprovides a powerful evidence for fish classification in Irtysh River, and meanwhile, this will also provide new scientific basis for further study between hosts, the genetic relationship of geographic evolution between parasites and hosts, and ecological pattern.

Generally, most Dactylogyrus has high host specificity, and some even has strict host specificity (a parasite is parasitic only to a host), so host specificity plays a unique role in identification of parasite types[3]. A survey of nearly 30 fish species in the Irtysh River found thatonly parasitizesin Irtysh river (China section), but in foreign countries it was also found to parasitize Leuciscusbaicalensis Dybowski, 1874 gills[6],, and white bream[24—25]. Our investigation did not findon the gills of. This may be related to the number and size of the acquired hosts, and the small number of parasites in the river basins. The relationship betweenand the hosts in Irtysh River basin needs further research.

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額爾齊斯河高體雅羅魚指環(huán)蟲種群動(dòng)態(tài)及中國(guó)一新記錄種

郝翠蘭1岳 城1姚衛(wèi)建2殷建國(guó)3焦 麗4朱夢(mèng)瑩1王 新1

(1. 新疆農(nóng)業(yè)大學(xué)動(dòng)物醫(yī)學(xué)學(xué)院, 烏魯木齊 830052; 2. 中國(guó)科學(xué)院水生生物研究所, 武漢 430072; 3. 新疆生產(chǎn)建設(shè)兵團(tuán)農(nóng)十師額爾齊斯河特種魚救護(hù)中心, 北屯 836000; 4. 新疆農(nóng)業(yè)大學(xué)動(dòng)物科學(xué)學(xué)院, 烏魯木齊 830052)

2009年4月到2012年7月對(duì)額爾齊斯河(中國(guó)段)高體雅羅魚鰓部寄生的指環(huán)蟲進(jìn)行了取樣調(diào)查,以期了解該魚指環(huán)蟲的種群生態(tài)學(xué)特點(diǎn)。結(jié)果表明, 高體雅羅魚共感染了三種指環(huán)蟲, 分別為號(hào)筒指環(huán)蟲、小刺指環(huán)蟲、大翼指環(huán)蟲, 該魚的總感染率為28.47%, 平均感染強(qiáng)度為7.39 (1—42)。感染率、感染強(qiáng)度在不同體長(zhǎng)組的宿主中表現(xiàn)出不同的變化趨勢(shì), 指環(huán)蟲的感染率在30 cm以上的宿主中達(dá)到最大, 為50%, 而在<10范圍內(nèi)未發(fā)現(xiàn)感染; 在不同體長(zhǎng)組宿主中指環(huán)蟲種群的分布類型主要為聚集分布, 另外, 根據(jù)形態(tài)學(xué)特征鑒定大翼指環(huán)蟲(Linsyow, 1878)為我國(guó)指環(huán)蟲屬一新記錄種, 論文對(duì)其主要形態(tài)特征進(jìn)行了描述并繪制了特征圖, 同時(shí)與寄生于高體雅羅魚鰓上的國(guó)內(nèi)已記述指環(huán)蟲屬蟲種的主要形態(tài)特征作了比較。

高體雅羅魚; 指環(huán)蟲; 種群動(dòng)態(tài); 大翼指環(huán)蟲; 新記錄

2013-01-05;

2013-11-25

National Science Foundation of China (No.: 31160535), the State Key Laboratory of Freshwater Ecology and Biotechnology (No.: 2011FB06), and the Project of Technology Support Xinjiang (No.: 201191136)

Hao Cui-Lan (1987—), female, ethnicHan, Henan Province, Master, major in prevention veterinary science, E-mail: haocuilan@126.com

Yue Cheng (1958—), male, ethnicHan, Shaanxi Province, Master, E-mail: yuechengxnd@yahoo.com.cn

Q145+.1

A

1000-3207(2014)02-0227-06

10.7541/2013.34