This document summarizes the rediscovery of the fish species Mastacembelus malabaricus in Kerala, India after over a century. Specimens of M. malabaricus were recently collected from its type locality in the Mananthavady River in Kerala. Analysis of these specimens showed that M. malabaricus has valid differences from related species and should not be considered a synonym. Key distinguishing characteristics of M. malabaricus include having 11 large "X" marks on its sides, 39-40 dorsal spines, a shorter head, shorter dorsal and anal fins, and shorter dorsal and anal spines compared to related species. The rediscovery confirms M. malabaricus as a distinct species found only in the
Mystus catapogon, a new fish species, is distinguished from its congeners by the following combination of characters: maxillary barbels reach beyond caudal fin base; outer mandibulars reach to base of ventral fin and inner mandibular barbels to middle of pectoral fin; Snout shorter; cephalic groove long, shallow and divided into two fontanels and reaching occipital process; occipital process does not reach basal bone of dorsal fin; adipose fin located fairly behind the rayed dorsal fin; body without any mid lateral stripe. The new fish is described and compared with its congeners.
Macrognathus siangensis, new species, from the Siang River, Brahmaputra drainage, northeast India, is distinguished from all other congeners by the following combination of characters: lack of rostral tooth plates, dorsal-fin spines 15-19, dark spots like imperfect ocelli along the base of dorsal soft branched fin rays 7-11, dark blotches at the mid-lateral sides of body 22-27, dorsal fin rays with two rows of parallel greyish streaks, caudal fin rays with 4-6 striated greyish streaks and body width 59.0-67.4% of its depth. A key to Macrognathus species of northeast India including the newly described one is provided.
Mystus catapogon, a new fish species, is distinguished from its congeners by the following combination of characters: maxillary barbels reach beyond caudal fin base; outer mandibulars reach to base of ventral fin and inner mandibular barbels to middle of pectoral fin; Snout shorter; cephalic groove long, shallow and divided into two fontanels and reaching occipital process; occipital process does not reach basal bone of dorsal fin; adipose fin located fairly behind the rayed dorsal fin; body without any mid lateral stripe. The new fish is described and compared with its congeners.
Macrognathus siangensis, new species, from the Siang River, Brahmaputra drainage, northeast India, is distinguished from all other congeners by the following combination of characters: lack of rostral tooth plates, dorsal-fin spines 15-19, dark spots like imperfect ocelli along the base of dorsal soft branched fin rays 7-11, dark blotches at the mid-lateral sides of body 22-27, dorsal fin rays with two rows of parallel greyish streaks, caudal fin rays with 4-6 striated greyish streaks and body width 59.0-67.4% of its depth. A key to Macrognathus species of northeast India including the newly described one is provided.
Morphological Characteristics and Sexual Maturity in M.masonina, a Freshwater...paperpublications3
Abstract: The present study aims to assess the status of fresh water crab resources in the area. The study was made on species diversity including its taxonomic position, morphological characteristics, habits, habitat and distribution. Out of various water bodies scanned so far two species of crabs were recorded viz Maydelliathelphusa masoniana Henderson, (1893) from plain areas and Himalayapotamon emphysetum Alcock (1909) from hilly stretches of the region. A total of 592 crabs were obtained, 282 being males and 310 females. The maximum carapace in female was 6.0 cm with abdominal width of 4.5 cm. Males exhibited carapace width of 6.3 cm and chela length of 5.7 cm and chela depth of 3.5 cm.
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Title: Morphological Characteristics and Sexual Maturity in M.masonina, a Freshwater Crab from Jammu Waters
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International Journal of Recent Research in Life Sciences (IJRRLS)
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ABSTRACT- The morphometric and meristic analyses of three species of freshwater catfish, Mystus cavasius, Mystus
vittatus and Mystus bleekeri of Chandubi beel, Assam were investigated. The morphometric characters vary effectively
among the three different species making its application taxonomically significant. In terms of their total length, M.
bleekeri is found to be the longest with 97.48 mm and M. vittatus is found to be the shortest with 83.9 mm. Moreover, M.
vittatus has also shown an extension of their barbel length upto 74.6% of the total length. Such morphometric variations
and advancements indicate the adaptive capability of the Mystus spp. over the varied geographical, climatic and nutritive
factors in their habitat. Key-words- Morphometry, Mystus vittatus, Mystus bleekeri, Mystus cavasius, Barbels, Dorsal spine
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The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
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1. Research Journal of Animal, Veterinary and Fishery Sciences ___________________________ ISSN 2320 – 6535
Vol. 1(8), 6-11, September (2013) Res. J. Animal, Veterinary and Fishery Sci.
International Science Congress Association 6
Rediscovery of Mastacembelus malabaricus after one and Half Century
Mathews Plamoottil1
and Nelson P. Abraham2
1
Govt. College, Chavara, Kollam Dt, Kerala, INDIA
2
St. Thomas College, Kozhencherry, Kerala, INDIA
Available online at: www.isca.in
Received 8th
September 2013, revised 16th
September 2013, accepted 24th
September 2013
Abstract
Mastacembelus malabaricus Jerdon has long been placed in synonymy with Mastacembelus armatus and Macrognathus
guentheri. An examination of the specimens of M. malabaricus collected recently from its type locality in Kerala shows
however, that it exhibits many valid differences from its congeners. Jerdon’s spiny eel is distinguished from its relative
species by having eleven large and conspicuous “X” marks on the mid lateral sides, 39- 40 dorsal spines, shorter head,
shorter dorsal fin, lengthy base of dorsal fin, lesser pre dorsal and pre anal length and shorter dorsal and anal spines.
Meristic and morphometric characters are analyzed well based on the topotypic materials.
Keywords: Mananthavady River, spiny eel, Mastacembelus armatus, redescription.
Introduction
Spiny eels, belonging to the family Mastacembelidae, are eel-
like fishes with elongated and compressed body. Macrognathus
and Mastacembelus are the two genera included in this family.
Both these genera are distributed throughout India. Day1
recognized two genera of spiny eels, namely Mastacembelus
and Rhynchobdella under the family Rhynchobdellidae of the
order Acanthopterigii. He recorded a single species,
Rhynchobdella aculeata under the genus Rhynchobdella and
five species under the genus Mastacembelus. Jayaram2,3
recognized two genera under Mastacembelidae viz.,
Macrognathus Lacepede with six species and Mastacembelus
Scopoli with five species.
Some taxonomists consider Mastacembelus malabaricus as a
synonym of Macrognathus guentheri and some others as a
synonym of Mastacembelus armatus. Recently the first author
could collect a few specimens of Mastacembelus malabaricus
from its type locality, examination of which revealed that it is a
different species from its closely related species.
Material and Methods
Fishes were collected using gill net and preserved in 10%
formalin. Methods used are those of Jayaram4
and
measurements follow standard practices. Identification of the
species and its comparison with the new species was carried out
following Jerdon5
Day1,6,7
, Yazdani8
, Talwar and Jhingran9
and
Jayaram3
. In the table, values of holotype are given first, then
ranges followed by their mean values. Body depth and body
width are taken at the level of first dorsal spine; length of the
longest dorsal and anal spine is counted as dorsal and anal spine
lengths respectively. Abbreviations used: BDD- body depth at
first dorsal spine; LDS- length of longest dorsal spine; DD & P-
distance between first dorsal spine and pectoral base.
Results and Discussion
Diagnosis: Mastacembelus malabaricus can be distinguished
from its congeners in having 39- 40 dorsal spines, an elongated
body, shorter head, short dorsal fin, lengthy base of dorsal fin,
lesser pre dorsal and pre anal length and shorter dorsal and anal
spines. Unlike its relatives, body of M. malabaricus has eleven
large and conspicuous “X” marks on the mid lateral sides.
Figure-1
Mastacembelus malabaricus collected from Mananthavady River
2. Research Journal of Animal, Veterinary and Fishery Sciences ________________________________________ ISSN 2320 – 6535
Vol. 1(8), 6-11, September (2013) Res. J. Animal, Veterinary and Fishery Sci.
International Science Congress Association 7
Description: An eel shaped fish tapering to head and tail (figure
1- 4). Head length 15.1- 17.0, body depth 5.8- 6.8 as % of
standard length. Eyes small, 7.4- 10.6, interorbital space 5.3-
7.5, length of snout 34.7- 38.3 as % of head length. The short
snout has a trilobed extremity with a concave but unstriated
lower surface. Length of gape of mouth, 11.3- 14.7 % of head
length, gape extending below to anterior margin of posterior
nostril; a moderately strong spine present forwards and
downwards of orbit and in between it and the angle of jaws.
Length of lower jaw 13.2- 17.7 as % of head length. Sharp teeth
in bands in both jaws. Dorsal and anal fins confluent with the
caudal.
Figure-2
Anterior region of Mastacembelus malabaricus
Figure-3
Middle region of Mastacembelus malabaricus
Figure-4
Posterior region of Mastacembelus malabaricus
3. Research Journal of Animal, Veterinary and Fishery Sciences ________________________________________ ISSN 2320 – 6535
Vol. 1(8), 6-11, September (2013) Res. J. Animal, Veterinary and Fishery Sci.
International Science Congress Association 8
Spines of dorsal fin originating above middle of pectoral fin,
second last spine the longest, last spine small and hidden
beneath the skin. Anal spines close together, second the largest,
last small and hidden beneath the skin; soft anal fin originating
slightly in advance of soft dorsal fin. Pectoral fin length 4.3-
5.3 as % of standard length. Vent nearer to base of caudal than
to snout. Caudal fin confluent with dorsal and anal fins; no
notch at the point of its confluence. Top of snout, inter nasal
space, inter orbital space and top of head as far as hind edge of
pre operculum scale less. Two to three small and inconspicuous
pre opercular spines or serrations present. Lateral line roughly
straight but at above the origin of soft anal it is concave.
Color: Body greenish brown or greenish yellow; eleven large
and conspicuous “X” marks present on the mid lateral sides on
the middle region of the body; in front of it in the anterior
region four large, round and conspicuous black spots; a number
of brownish black dots present above and below ‘X’ marks.
Three rows of large and conspicuous black spots present on the
caudal region; twenty large and conspicuous round spots present
on the dorso- lateral side just below mid dorsal line; pectoral fin
with three dots of black dots in the form of lines; below it at the
base of pectoral a large round black spot present. From the eyes
three brownish black lines in the form of elongated dots up to
opercle. One or two lines may go to ventral side of opercle, but
not united with those on the other side. A brownish black line
in the form of dots originate from the middle of pectoral fin
considerably below lateral line and reach below up to 15th
dorsal
spine; it is distinct but in the form of scattered dots. Another
brownish black line formed by the joining of 2 or 3 elongated
dots starts from below pectoral and reach up to a little behind
posterior tip of pectoral. These two lines are in the form of dots
and not in the form of line in young specimens. Basic color
pattern is constant in all the fishes of the species.
Distribution: Currently known only from Mananthavady River,
Wayanad, Kerala, India.
Table-1
Morphometric characters of Mastacembelus malabaricus
SL. No Characters Range Mean SD
1 Total length 297.5- 419.0 345.1 57.4
2 Standard length 285.0- 400.0 330.8 55.0
Percentage of Standard Length
3 Head Length 15.1- 17.0 16.4 0.8
4 Body depth 5.8- 6.8 6.3 0.4
5 Body width 4.6- 5.3 4.8 0.3
6 Length of pectoral 4.3- 5.3 4.8 0.5
7 Height of soft dorsal fin 1.4- 2.0 1.7 0.4
8 Length of dorsal spine 1.5- 2.3 1.9 0.3
9 Height of soft anal fin 1.1-1.3 1.2 0.1
10 Height of anal spine 2.3- 3.5 2.8 0.4
11 Length of caudal fin 3.4- 4.9 4.4 0.7
12 Length of base of soft dorsal fin 35.8- 39.1 37.1 1.5
13 Length of base of spinous dorsal fin 43.0- 45.6 44.2 1.3
14 Length of base of soft anal fin 36.8- 41.3 38.9 2.4
15 Length of base of spinous anal fin 2.5- 3.8 3.1 0.6
16 Length of base of pectoral 1.9- 2.1 2 0.1
17 Pre dorsal length 17.1- 19.0 18.3 0.8
18 Pre anal length 56.6- 58.8 58 0.9
19 Head length (mm) 47.0-68.0 54.25 9.5
Percentage of head length
20 Head depth 37.2- 39.2 38.2 0.9
21 Head width 25.3- 29.8 28.2 1.9
22 Eye diameter 7.4- 10.6 9.4 1.4
23 Snout length 34.7- 38.3 36.6 1.7
24 Inter orbital width 5.3- 7.5 6.4 0.9
25 Width of gape of mouth 11.3- 14.7 12.8 1.4
26 Length of lower jaw 13.2- 17.7 15.5 1.9
27 Length of pectoral fin 25.0- 32.0 29.2 3.0
4. Research Journal of Animal, Veterinary and Fishery Sciences ________________________________________ ISSN 2320 – 6535
Vol. 1(8), 6-11, September (2013) Res. J. Animal, Veterinary and Fishery Sci.
International Science Congress Association 9
Comparisons: Mastacembelus malabaricus Jerdon5
was
described firstly from ‘Malabar’ of Kerala. Jerdon’s ‘Malabar’
confines to northern parts of Kerala, mainly Rivers of Wayanad
such as Mananthavady River as he described many new species
of fishes from it. Many taxonomists consider Mastacembelus
malabaricus as a synonym of Macrognathus guentheri
described by Day6
from Karuvannoor River of Thrissur,
Kerala1,9,3
. However Menon10
considered guentheri as a
synonym of malabaricus on priority basis. Even though many
taxonomists included Mastacembelus malabaricus along with
the species of the genus Macrognathus1,3,10
, spiny eel expert
Yazdani8
included it in the genus Mastacembelus and
considered it as a synonym of Mastacembelus armatus. The
first author of this paper could examine many specimens of
Mastacembelus malabaricus from Mananthavady River of
Wayanad, of Kerala; from the analysis of taxonomical aspects it
was revealed that there is no reason to include this Jerdon’s
Mastacembelus species in Macrognathus. As any other
Mastacembelus species, and unlike Macrognathus, its caudal fin
is smoothly confluent with dorsal and anal fins (vs. dorsal and
anal fins united with caudal up to the middle of caudal and the
latter can be seen separately in Macrognathus), spines of dorsal
fin originating above middle of pectoral fin (vs. spines of dorsal
fin originating behind the end of pectoral fin), body depth lesser
(vs. greater), snout without a striated lower surface (vs. striated),
gape of mouth extending to below posterior nostril (vs. never
extends to below the posterior nostril) and in possessing 39- 40
dorsal spines (vs. 27- 30). The spiny eel currently collected
from Mananthavady River can be diagnosed as Mastacembelus
malabaricus because of the similarities with Jerdon’s original
description. Jerdon’s species’ colour is very similar to the fish
currently collected from Mananthavady River, “green above,
yellowish beneath, tinged with yellow under throat, spots
present on the back” (colour of M. malabaricus match with it)
and “body depth less than 12 or 13 in body length” (BDD 15.1-
17.8 in TL and 14.4- 17.0 in SL in the presently collected M.
malabaricus). But dorsal fin spines were stated as 37 in M.
malabaricus; but in the presently collected malabaricus it is 39-
40. As the first and last dorsal spines are very small and hidden
under the skin, Jerdon might have counted it as 37 instead of 39.
The presently collected M. malabaricus can be distinguished
from its only one relative species from Kerala namely
Mastacembelus armatus (figure 5) in having different colour
pattern and dorsal spine count. In the presently collected M.
malabaricus, unlike M. armatus, eleven “X” marks present on
the mid lateral sides; in front of it in the anterior region four
large, round and conspicuous black spots present; a number of
brownish black dots present above and below ‘X’ marks, twenty
large round spots present on the dorso- lateral side just below
mid dorsal line, dorsal fin spines are 39-40.
Figure-5
Mastacembelus armatus collected from Manimala River
Table-2
Morphometric differences in Mastacembelus malabaricus and M. armatus
Sl. No Characters
Mastacembelus
malabaricus
Mastacembelus armatus
Percentage of standard length
Head length 15.1- 17.0 17.7- 20.0
Body depth 5.8- 6.8 7.2- 12.9
Length of soft dorsal fin 1.4- 2.0 2.5- 3.2
Length of base of soft dorsal fin 35.8- 39.1 33.8- 34.3
Pre dorsal length 17.1- 19.0 20.1- 21.8
Pre anal length 56.6- 58.8 62.5- 64.0
Percentage of head length
Head width 25.3-29.8 30.3- 31.0
Width of gape of mouth 12.2-14.7 16.0-20.0
Length of dorsal spine 11.7- 13.3 15.2- 16.8
Length of anal spine 15.1- 16.3 20.0- 21.2
5. Research Journal of Animal, Veterinary and Fishery Sciences ________________________________________ ISSN 2320 – 6535
Vol. 1(8), 6-11, September (2013) Res. J. Animal, Veterinary and Fishery Sci.
International Science Congress Association 10
(vs. 32- 40 in M. armatus), head shorter (15.1- 17.0 % SL vs.
17.7- 20.0), body depth lesser (5.8- 6.8 % of SL vs. 7.2- 12.9),
pre anal distance shorter (56.6- 58.8 % SL vs. 62.5- 64.0), width
of mouth gape shorter (12.2- 14.7 % HL vs. 16.0- 20.0), dorsal
spines shorter (LDS 11.7- 13.3 % HL vs. 15.2- 16.8), spines on
the pre operculum not conspicuous (vs. conspicuous) and anal
spines shorter (15.1- 16.3 % HL vs. 20.0- 21.2).
Eventhough Mastacembelus malabaricus and Macrognathus
guentheri are spiny eels from different genera, they have to be
distinguished from each other as a synonymy has been created
between these two at present. In most of the meristic counts M.
guentheri differs from M. malabaricus as shown in table 3.
In Macrognathus guentheri (figure 6) body depth is greater
(11.1- 12.0 % SL vs. 5.8- 6.8 in Mastacembelus malabaricus),
dorsal fin longer (3.2- 4.7 % SL vs. 1.4- 2.0), head width greater
(29.3- 35.0 % HL vs. 25.3- 29.8) and eyes are widely set (IOW
10.5- 12.0 % HL vs. 5.3- 7.5). Major morphometric differences
between Macrognathus guentheri and Mastacembelus
malabaricus are shown in table 4.
Table-3
Differences in meristic counts of Mastacembelus malabaricus
and Macrognathus guentheri
SL.
No
Characters Mastacembelus
malabaricus
Macrognathus
guentheri
1 Dorsal rays 84- 94 62- 65
2 Dorsal spines 39- 40 30- 31
3 Pectoral rays 22- 28 16- 20
4 Anal rays 75- 82 64- 68
5 Caudal rays 14- 15 10- 13
Figure-6
Macrognathus guentheri collected from Karuvannoor River
Table-4
Differences in morphometric characters of Mastacembelus malabaricus and Macrognathus guentheri
SL. No Morphometric characters Mastacembelus malabaricus Macrognathus guentheri
Percentage of standard length
1 Body depth 5.8- 6.8 11.1- 12.0
2 Body width 4.6- 5.3 7.0- 7.5
3 Length og dorsal fin 1.4- 2.0 3.2- 4.7
4 Length of anal fin 1.1- 1.3 3.1- 3.7
5 Length of caudal fin 3.4- 4.9 5.8- 7.0
6 Pre dorsal length 17.1- 19.0 21.1- 24.0
Percentage of head length
7 Head depth 37.2- 39.2 39.5- 42.2
8 Head width 25.3- 29.8 29.3- 35.0
9 Interorbital width 5.3- 7.5 10.5- 12.0
10 Width of gape of mouth 12.2- 14.7 10.9- 12.0
11 Length of lower jaw 14.9- 17.7 12.0- 13.3
12 Length of pectoral fin 25.0- 32.0 32.6- 36.1
13 DD & P 21.0- 23.0 37.8- 41.0
14 Distance from anal to vent 6.0- 8.0 15.6- 17.0
15 Length of dorsal spine 11.7- 13.3 14.0- 17.8
16 Length of anal spine 15.1- 16.3 20.0- 21.0
6. Research Journal of Animal, Veterinary and Fishery Sciences ________________________________________ ISSN 2320 – 6535
Vol. 1(8), 6-11, September (2013) Res. J. Animal, Veterinary and Fishery Sci.
International Science Congress Association 11
Conclusion
Mastacembelus malabricus is a rare and endemic species of
spiny eel found in Kerala. Native fishermen catch them using
gill net and hook and line. It is consumed as a delicious dish by
many local people; they believe it to have medicinal values.
April- may is the main fishing season of this spiny eel.
Comparative Material: Mastacembelus armatus: STC/DOZ
19, 4 examples, 232- 283 mm SL, Manimala River at
Chenappady, Kerala, coll. Mathews Plamoottil, 10.02.2010;
ZSI/F 2003, 1 example, Sung River, Satnarain, Dehra Dun, coll.
S. L. Hora; ZSI/SRC F 130, 2 examples, Erodu, Bhavani River,
coll. K. C. Jayaram, 17.02.1974; Macrognathus guentheri:
STC/DOZ 20, 4 examples, Karuvannoor River, Thrissur,
Kerala, coll. Mathews Plamoottil, 10.01. 2013; Mastacembelus
malabaricus: STC/DOZ 21, 4 examples, Valloorkkavu,
Mananthavady River, Wayanadu, Kerala, India, coll. Mathews
Plamoottil, 12.03.2013.
Acknowledgments
The first author acknowledges University Grants Commission
of India for sanctioning Faculty Development Programme for
undergoing the research. Both the authors acknowledge
Principal, St. Thomas College, Kozhencherry, Kerala for
providing the facilities.
References
1. Day F., Fauna of British India including Ceylon and
Burma, Taylor and Francis, London, 334 (1889)
2. Jayaram K.C., The fresh water fishes of India: A hand
book. Zoological Survey of India, Kolkata, i- viii, 1- 475
(1981)
3. Jayaram K. C., Fresh water fishes of the Indian region,
Narendra publishing House, Delhi, 415- 419 (2010)
4. Jayaram K. C., Fundamentals of fish taxonomy, Narendra
publishing House, Delhi, 53-65 (2002)
5. Jerdon T. C., The fishes of Southern India, Madras Journal
of Literature and Science xv, 147 (1849)
6. Day F., The Fishes of Malabar, Bernard Quaritch, London,
153- 155 (1865)
7. Day F., The fishes of India: being a natural history of the
fishes known to inhabit the seas and fresh waters of India,
Burma, and Ceylon, London, 340 (1878)
8. Yazdani G. M., Contribution to the fish fauna of India:
Order Mastacembeliformes, Records of zoological survey
of India, Occasional paper No. 124, 1- 127 (1990)
9. Talwar P. K. and Jhingran. A., Inland fishes of India and
adjacent countries, Oxford and IBH publishing Co. Pvt.
Ltd, 1025- 1033 (1991)
10. Menon A. G. K., Check list of fresh water fishes of India,
Zoologial Survey of India, Occassional Paper No. 175, 366
(1999)