Mangrove root complexity and shading are well known to give positive correlation for both juveniles and adult fishes. However, it is remain unclear whether that complexity would affect the community of fish larvae (ichthyoplankton). This study aimed to address the question, especially in mangrove area in coastal area of Sepulu, Madura which projected as a mangrove protection area. Sampling periods were from March to May, 2016. The samples of fish larvae were collected by plankton net (mesh-size 0.150 and 0.265 mm) from six different locations representing different root types (stilt root, pneumatophore, combination of stilt root-pneumatophore and unvegetated area). As the results, 6 families were identified, namely Gobiidae, Blennidae, Pomacentridae, Carangidae, Engraulidae and Ambassidae, respectively. Gobiidae seems to be the most abundant and widely dispersed in the area. Results of two-way AnovadanTukey HSD (both at p=0.05) indicate that there were significant difference in the larval abundance regarding locations, sampling periods and interaction of both factors. As for number of taxa, significant difference occurred only from factors of locations and sampling periods, but not for interaction of both factors. Highest larval abundance and number of taxa occurred in Rhizophoraspp (with stilt root), indicating that root complexity would affect the community of fish larvae. Ordination by canonical analysis shows that different taxa of the fish larvae are tend to be distributed on different locations.

1.
Y. R.
Noor
,
M.
Khazali
 and
I. N. N.
Suryadiputra
,
PanduanPengenalanMangrove di Indonesia
(
PHKA/Wetlands International – Indonesia Programme
,
Bogor
,
1999
).
Google Scholar
 
2.
W.
Giesen
,
S.
Wulffraat
,
M.
Zieren
 and
L.
Scholten
,
Mangrove Guidebook for Southeast Asia
(
FAO and Wetlands International
,
Bangkok
,
2006
).
Google Scholar
 
3.
FAO
,
Mangrove Forest Management Guidelines, FAO Forestry Paper 117
(
FAO
,
Rome
,
1994
).
4.
C. H.
Faunce
 and
J. E.
Serafy
,
Mangroves as fish habitat: 50 years of field studies
,
Marine Ecology Progress Series
318
,
1
18
(
2006
)
https://doi.org/10.3354/meps318001
Google Scholar
Crossref
Search ADS
 
5.
P.
Tse
,
T. H. M.
Nip
 and
C. K.
Wong
,
Nursery function of mangrove: A comparison with mudflat in terms of fish species composition and fish diet
,
Estuarine, Coastal and Shelf Science
80
,
235
242
(
2008
).
https://doi.org/10.1016/j.ecss.2008.08.002
Google Scholar
Crossref
Search ADS
 
6.
I.
Nagelkerken
 and
C. H.
Faunce
,
What makes mangroves attractive to fish? Use of artificial units to test the influence of water depth, cross-shelf location, and presence of root structure
,
Estuarine, Coastal and Shelf Science
79
,
559
565
(
2008
)
https://doi.org/10.1016/j.ecss.2008.04.011
Google Scholar
Crossref
Search ADS
 
7.
I.
Nagelkerken
,
A.M.
De Schryver
,
M.C.
Verweij
,
F.
Dahdouh-Guebas
,
G.
van der Velde
 and
N.
Koedam
,
Differences in root architecture influence attraction of fishes to mangroves: A field experiment mimicking roots of different length, orientation, and complexity
,
Journal of Experimental Marine Biology and Ecology
396
,
27
34
(
2010
).
https://doi.org/10.1016/j.jembe.2010.10.002
Google Scholar
Crossref
Search ADS
 
8.
S.
Redjeki
,
Komposisidankelimpahanikan di ekosistem mangrove Kedungmalang, Jepara
,
IlmuKelautan
18
(
1
),
54
60
(
2013
).
Google Scholar
 
9.
FAO
,
The World’s Mangroves 1980-2005, FAO Forestry Paper 153
(
FAO
,
Rome
,
2007
).
10.
M.
Wang
,
Z.
Huang
,
F.
Shi
 and
W.
Wang
,
Are vegetated areas of mangroves attractive to juvenile and small fish? The case of Dongzhaigang Bay, Hainan Island, China
,
Estuarine, Coastal and Shelf Science
85
,
208
216
(
2009
).
https://doi.org/10.1016/j.ecss.2009.08.022
Google Scholar
Crossref
Search ADS
 
11.
P.
Laegdsgaard
, and
C.
Johnson
,
Why do juvenile fish utilize mangrove habitats?
Journal of Experimental Marine Biology and Ecology
257
,
229
253
(
2001
).
https://doi.org/10.1016/S0022-0981(00)00331-2
Google Scholar
Crossref
Search ADS
PubMed
 
12.
K.
Nanjo
,
H.
Kohno
,
Y.
Nakamura
,
M.
Horinouchi
 and
M.
Sano
,
Effect of mangrove structure on fish distribution patterns and predation risks
,
Journal of Experimental Marine Biology and Ecology
461
,
216
225
(
2014
).
https://doi.org/10.1016/j.jembe.2014.08.014
Google Scholar
Crossref
Search ADS
 
13.
E. C. de la
Morinière
,
I.
Nagelkerken
,
H.
van der Meij
 and
G.
van der Velde
,
What attracts coral reef fish to mangroves? Habitat complexity or shade?
Marine Biology
144
,
139
144
(
2004
).
https://doi.org/10.1007/s00227-003-1167-8
Google Scholar
Crossref
Search ADS
 
14.
M. A. A.
El-Regal
 and
N.K.
Ibrahim
,
Role of mangroves as nursery ground for juvenile reef fishes in the southern Egyptian Red Sea
,
Egyptian Journal of Aquatic Research
40
,
71
78
(
2014
).
https://doi.org/10.1016/j.ejar.2014.01.001
Google Scholar
Crossref
Search ADS
 
15.
V.
Janeekarn
 and
P.
Boonruang
,
Composition and abundance of fish larvae in mangroves area along the eastcoast of Phuket Island, western Thailand Peninsular
,
Phuket Marine Biological Center Research Bulletin
44
,
1
22
(
1986
).
Google Scholar
 
16.
A. L.
Ooi
 and
V.C.
Chong
,
Larval fish assemblages in a tropical mangrove estuary and adjacent coastal waters: Offshore–inshore flux of marine and estuarine species
,
Continental Shelf research
31
,
1599
1610
(
2011
).
https://doi.org/10.1016/j.csr.2011.06.016
Google Scholar
Crossref
Search ADS
 
17.
N. S.
Riswandha
,
A.
Solichin
 and
N.
Afiati
,
Strukturkomunitas larva ikanpadaekosistem mangrove denganumurvegetasi yang berbeda di desaTimbulsloko, Demak
,
Journal of Maquares
4
:
164
173
(
2015
).
Google Scholar
 
18.
PHE-WMO (PertaminaHuluEnergi-West Madura Offshore)
, Status KeanekaragamanHayati Wilayah Konservasi Mangrove PHE-WMO Periode Semester Pertama 2015 (
PHE-WMO
,
Gresik
,
2015
).
19.
J. C.
Pemettar
,
Larval fish identification guide for the South China Sea and Gulf of Thailand
(
SEAFDEC
,
Bangkok
,
2007
).
Google Scholar
 
20.
Anonym
,
Guide to identification to order and family and main character of larvae of commercially important fish in the South East Asia region
(
SEAFDEC
,
Bangkok
,
2007
).
21.
J. M.
Leis
 and
B. M.
Carson-Ewart
,
The larvae of Indo-Pacific coastal fishes: an identification guide to marine fish larvae
(
Brill
,
Leiden
,
2004
),
850
pp.
Google Scholar
 
22.
T.
Balakrishnan
,
A.
Sundaramanickam
,
S.
Shekhar
,
K.
Muthukumaravel
 and
T.
Balasubramanian
,
Seasonal abundance and distribution of ichthyoplankton diversity in the Coleroon estuarine complex, Southeast coast of India
,
Biocatalysis and Agricultural Biotechnology
4
:
784
794
(
2015
).
https://doi.org/10.1016/j.bcab.2015.09.006
Google Scholar
Crossref
Search ADS
 
23.
Ministry of Environment of Republic of Indonesia
, Resolution no 51 year 2004, Appendix III.
24.
C. F.
Mason
,
Biology of freshwater pollution
(
Longman
,
London
,
1981
).
Google Scholar
 
25.
A. B.
Arshad
,
R.
Ara
,
S.M.N.
Amin
,
S.K.
Daud
 and
M.A.
Ghaffar
,
Larval fish composition and spatio-temporal variation in the estuary of Pendas River, southwestern Johor, Peninsular Malaysia
,
Coastal Marine Science
35
(
1
):
96
102
(
2012
).
Google Scholar
 
26.
V.
Sarpedonti
,
E.M.S.
Anunciação
 and
V.I. J.
Nahum
,
Ichthyoplankton variations in two mangrove creeks of the Curuçáestuary, Pará, Brazil
,
Ecotropicos
21
(
1
):
1
12
(
2008
).
Google Scholar
 
27.
N. W.
Subiyanto
 and Iswahyuni,
Pengaruh pasang surut terhadap rekruitmen larva ikan di Pelawangan Timur segara anakan Cilacap
,
Jurnal Saintek Perikanan
5
:
44
48
(
2009
).
Google Scholar
 
28.
J. S.
Nelson
, Fishes of the world, fourth edition(
John Wiley & Sons, Inc
,
New Jersey
,
2006
).
29.
R. E.
Thresher
,
Reproduction in reef fishes
(
T.F.H. Publications
,
New Jersey
,
1984
).
Google Scholar
 
30.
M. C.
Verweij
,
I.
Nagelkerken
,
D.
de Graaff
,
P.M.
Bakker
 and
E.J.
van der Velde
,
Structure, food and shade attract juvenile coral reef fish to mangrove and seagrass habitats: a field experiment
,
Marine Ecology Progress Series
306
:
257
268
(
2006
).
https://doi.org/10.3354/meps306257
Google Scholar
Crossref
Search ADS
 
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