Laccobiini

Minoshima, Yûsuke N., Iwata, Yasuyuki, Fikáček, Martin & Hayashi, Masakazu, 2017, Description of immature stages of Laccobius kunashiricus, with a key to genera of the Laccobiini based on larval characters (Coleoptera: Hydrophilidae), Acta Entomologica Musei Nationalis Pragae 57 (1), pp. 97-119 : 114-116

publication ID

https://doi.org/ 10.1515/aemnp-2017-0060

publication LSID

lsid:zoobank.org:pub:C105A783-646F-498F-9585-D50D0D3B8333

persistent identifier

https://treatment.plazi.org/id/03D18D3C-FFC8-191F-BE18-93E0FBE0FDB9

treatment provided by

Marcus

scientific name

Laccobiini
status

 

Key to the known genera of the tribe Laccobiini View in CoL

The tribe Laccobiini contains 11 genera ( SHORT & FIKÁČEK 2013), of which the larval morphology has been described in detail and based on reliably identified specimens for five genera ( Laccobius , Oocyclus , Paracymus Thomson, 1867 , Tormus Sharp, 1884 , and Tritonus Mulsant, 1844 ) (e.g., BØVING & HENRIKSEN 1938; ARCHANGELSKY 1997; ARCHAN- GELSKY & FIKÁČEK 2004; FIKÁČEK et al. 2013, 2017). The larva of Pelthydrus Orchymont, 1919 was mentioned by BERTRAND (1936, 1974): it was first described as ʻHydrophilidae genus 1ʼ and only later assigned to Pelthydrus . Since the description of the larva is very incomplete and the identification seems doubtful ( MINOSHIMA & HAYASHI 2011), we are not including this larva into the key below. Larvae are not known for Afrotormus Hansen, 1999 , Arabhydrus Hebauer, 1997 , Hydrophilomima Hansen & Schödl, 1997 , Ophthalmocyclus Komarek, 2003 and Scoliopsis Orchymont, 1919 . Based on the phylogenetic position of these genera ( SHORT & FIKÁČEK 2013, TOUSSAINT et al. 2016), we suppose that the larva of Ophthalmocyclus may be similar to that of Oocyclus , and the larva of Scoliopsis to that of Tritonus . Genera Pelthydrus , Arabhydrus and Hydrophilomima form a large separate clade within the Laccobiini whose larval morphology remains totally unknown. The larvae of Oriental species of Oocyclus are unknown and may not necessarily correspond with larvae of Neotropical Oocyclus , since Oriental Oocyclus seem phylogenetically closer to Pelthydrus + Arabhydrus + Hydrophilomima .

1 Both mandibles similar in shape and with same number of inner teeth (e.g., Figs 11C, D View Fig in FIKÁČEK et al. 2013). .................................................................................................... 2

– Mandibles distinctly asymmetrical, with different number of inner teeth on each mandible; left mandible with fine combs on the base of the basal inner tooth ( Figs 5C, D View Fig , 10C, D View Fig ). .................................................................................................................................... 4

2 Frontal lines V-shaped, convergent posteriorly ( Fig. 3A View Fig in FIKÁČEK et al. 2017); coronal line present; sensorium SE1 small ( Figs 5B View Fig , 6A View Fig in FIKÁČEK et al. 2017); endemic to Madagascar and Seychelles. .............................................................. Tritonus Mulsant, 1844 View in CoL

– Frontal lines parallel or oblique, not convergent posteriorly ( Fig. 2 View Fig in ARCHANGELSKY 1999, Fig. 14A in FIKÁČEK et al. 2013); coronal line absent; sensorium SE1 long, as long as antennomere 3 (e.g., Fig. 5 View Fig in ARCHANGELSKY 1999 and Figs 11A View Fig , 13A, 15A in FIKÁČEK et al. 2013)........................................................................................................................ 3

3 Frontal lines lyriform, almost parallel (Fig 34C in ARCHANGELSKY 1997, Fig. 2 View Fig in ARCHAN- GELSKY 1999); maxilla and mentum bearing sparsely arranged short cuticular spines (Figs 35D, E in ARCHANGELSKY 1997, Figs 6 View Fig , 8 View Fig in ARCHANGELSKY 1999); labium not bearing densely arranged long hair-like projections (Fig. 35D in ARCHANGELSKY 1997, Fig. 8 View Fig in ARCHANGELSKY 1999); ligula present (Fig. 35D in ARCHANGELSKY 1997, Fig. 8 View Fig in ARCHAN- GELSKY 1999). ........................................................................ Paracymus Thomson, 1867 View in CoL

– Frontal lines almost straight, oblique ( Figs 10A View Fig , 14A in FIKÁČEK et al. 2013); maxilla and labium bearing densely arranged hair-like cuticular projections (e.g., Figs 11E, G View Fig , 15E, G in FIKÁČEK et al. 2013); labiumligula absent ( Figs 11G View Fig , 13G, 15G in FIKÁČEK et al. 2013); endemic to New Zealand. ................................................................. Tormus Sharp, 1884 View in CoL

4 Frontal lines parallel, almost straight ( Fig. 3A View Fig ); larger mesonotal sclerites rather small, separate medially ( Figs 2 View Fig , 7C View Fig ). ................................................ Laccobius Erichson, 1837 View in CoL

– Frontal lines lyriform (Fig. 47B in ARCHANGELSKY 1997); larger mesonotal sclerites large, attached medially, finely divided by sagittal line. ......................... Oocyclus Sharp, 1882 View in CoL

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Coleoptera

Family

Hydrophilidae

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Coleoptera

Family

Hydrophilidae

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