In:
ZooKeys, Pensoft Publishers, Vol. 920 ( 2020-03-23), p. 1-1089
Abstract:
A checklist of world species of Microgastrinae parasitoid wasps (Hymenoptera: Braconidae) is provided. A total of 81 genera and 2,999 extant species are recognized as valid, including 36 nominal species that are currently considered as species inquirendae . Two genera are synonymized under Apanteles . Nine lectotypes are designated. A total of 318 new combinations, three new replacement names, three species name amendments, and seven species status revised are proposed. Additionally, three species names are treated as nomina dubia , and 52 species names are considered as unavailable names (including 14 as nomina nuda ). A total of three extinct genera and 12 extinct species are also listed. Unlike in many previous treatments of the subfamily, tribal concepts are judged to be inadequate, so genera are listed alphabetically. Brief diagnoses of all Microgastrinae genera, as understood in this paper, are presented. Illustrations of all extant genera (at least one species per genus, usually more) are included to showcase morphological diversity. Primary types of Microgastrinae are deposited in 108 institutions worldwide, although 76% are concentrated in 17 collections. Localities of primary types, in 138 countries, are reported. Recorded species distributions are listed by biogeographical region and by country. Microgastrine wasps are recorded from all continents except Antarctica; specimens can be found in all major terrestrial ecosystems, from 82°N to 55°S, and from sea level up to at least 4,500 m a.s.l. The Oriental (46) and Neotropical (43) regions have the largest number of genera recorded, whereas the Palaearctic region (28) is the least diverse. Currently, the highest species richness is in the Palearctic region (827), due to more historical study there, followed by the Neotropical (768) and Oriental (752) regions, which are expected to be the most species rich. Based on ratios of Lepidoptera and Microgastrinae species from several areas, the actual world diversity of Microgastrinae is expected to be between 30,000–50,000 species; although these ratios were mostly based on data from temperate areas and thus must be treated with caution, the single tropical area included had a similar ratio to the temperate ones. Almost 45,000 specimens of Microgastrinae from 67 different genera (83% of microgastrine genera) have complete or partial DNA barcode sequences deposited in the Barcode of Life Data System; the DNA barcodes represent 3,545 putative species or Barcode Index Numbers (BINs), as estimated from the molecular data. Information on the number of sequences and BINs per genus are detailed in the checklist. Microgastrinae hosts are here considered to be restricted to Eulepidoptera, i.e., most of the Lepidoptera except for the four most basal superfamilies (Micropterigoidea, Eriocranioidea, Hepialoidea and Nepticuloidea), with all previous literature records of other insect orders and those primitive Lepidoptera lineages being considered incorrect. The following nomenclatural acts are proposed: 1) Two genera are synonymyzed under Apanteles : Cecidobracon Kieffer & amp; Jörgensen, 1910, new synonym and Holcapanteles Cameron, 1905, new synonym ; 2) Nine lectotype designations are made for Alphomelon disputabile (Ashmead, 1900), Alphomelon nigriceps (Ashmead, 1900), Cotesia salebrosa (Marshall, 1885), Diolcogaster xanthaspis (Ashmead, 1900), Dolichogenidea ononidis (Marshall, 1889), Glyptapanteles acraeae (Wilkinson, 1932), Glyptapanteles guyanensis (Cameron, 1911), Glyptapanteles militaris (Walsh, 1861), and Pseudapanteles annulicornis Ashmead, 1900; 3) Three new replacement names are a) Diolcogaster aurangabadensis Fernandez-Triana, replacing Diolcogaster indicus (Rao & amp; Chalikwar, 1970) [nec Diolcogaster indicus (Wilkinson, 1927)], b) Dolichogenidea incystatae Fernandez-Triana, replacing Dolichogenidea lobesia Liu & amp; Chen, 2019 [nec Dolichogenidea lobesia Fagan-Jeffries & amp; Austin, 2019], and c) Microplitis vitobiasi Fernandez-Triana, replacing Microplitis variicolor Tobias, 1964 [nec Microplitis varicolor Viereck, 1917]; 4) Three names amended are Apanteles irenecarrilloae Fernandez-Triana, 2014, Cotesia ayerzai (Brèthes, 1920), and Cotesia riverai (Porter, 1916); 5) Seven species have their status revised : Cotesia arctica (Thomson, 1895), Cotesia okamotoi (Watanabe, 1921), Cotesia ukrainica (Tobias, 1986), Dolichogenidea appellator (Telenga, 1949), Dolichogenidea murinanae (Capek & amp; Zwölfer, 1957), Hypomicrogaster acarnas Nixon, 1965, and Nyereria nigricoxis (Wilkinson, 1932); 6) New combinations are given for 318 species: Alloplitis congensis , Alloplitis detractus , Apanteles asphondyliae , Apanteles braziliensis , Apanteles sulciscutis , Choeras aper , Choeras apollion , Choeras daphne , Choeras fomes , Choeras gerontius , Choeras helle , Choeras irates , Choeras libanius , Choeras longiterebrus , Choeras loretta , Choeras recusans , Choeras sordidus , Choeras stenoterga , Choeras superbus , Choeras sylleptae , Choeras vacillatrix , Choeras vacillatropsis , Choeras venilia , Cotesia asavari , Cotesia bactriana , Cotesia bambeytripla , Cotesia berberidis , Cotesia bhairavi , Cotesia biezankoi , Cotesia bifida , Cotesia caligophagus , Cotesia cheesmanae , Cotesia compressithorax , Cotesia delphinensis , Cotesia effrena , Cotesia euphobetri , Cotesia elaeodes , Cotesia endii , Cotesia euthaliae , Cotesia exelastisae , Cotesia hiberniae , Cotesia hyperion , Cotesia hypopygialis , Cotesia hypsipylae , Cotesia jujubae , Cotesia lesbiae , Cotesia levigaster , Cotesia lizeri , Cotesia malevola , Cotesia malshri , Cotesia menezesi , Cotesia muzaffarensis , Cotesia neptisis , Cotesia nycteus , Cotesia oeceticola , Cotesia oppidicola , Cotesia opsiphanis , Cotesia pachkuriae , Cotesia paludicolae , Cotesia parbhanii , Cotesia parvicornis , Cotesia pratapae , Cotesia prozorovi , Cotesia pterophoriphagus , Cotesia radiarytensis , Cotesia rangii , Cotesia riverai , Cotesia ruficoxis , Cotesia senegalensis , Cotesia seyali , Cotesia sphenarchi , Cotesia sphingivora , Cotesia transuta , Cotesia turkestanica , Diolcogaster abengouroui , Diolcogaster agama , Diolcogaster ambositrensis , Diolcogaster anandra , Diolcogaster annulata , Diolcogaster bambeyi , Diolcogaster bicolorina , Diolcogaster cariniger , Diolcogaster cincticornis , Diolcogaster cingulata , Diolcogaster coronata , Diolcogaster coxalis , Diolcogaster dipika , Diolcogaster earina , Diolcogaster epectina , Diolcogaster epectinopsis , Diolcogaster grangeri , Diolcogaster heterocera , Diolcogaster homocera , Diolcogaster indica , Diolcogaster insularis , Diolcogaster kivuana , Diolcogaster mediosulcata , Diolcogaster megaulax , Diolcogaster neglecta , Diolcogaster nigromacula , Diolcogaster palpicolor , Diolcogaster persimilis , Diolcogaster plecopterae , Diolcogaster plutocongoensis , Diolcogaster psilocnema , Diolcogaster rufithorax , Diolcogaster semirufa , Diolcogaster seyrigi , Diolcogaster subtorquata , Diolcogaster sulcata , Diolcogaster torquatiger , Diolcogaster tristiculus , Diolcogaster turneri , Diolcogaster vulcana , Diolcogaster wittei , Distatrix anthedon , Distatrix cerales , Distatrix cuspidalis , Distatrix euproctidis , Distatrix flava , Distatrix geometrivora , Distatrix maia , Distatrix tookei , Distatrix termina , Distatrix simulissima , Dolichogenidea agamedes , Dolichogenidea aluella , Dolichogenidea argiope , Dolichogenidea atreus , Dolichogenidea bakeri , Dolichogenidea basiflava , Dolichogenidea bersa , Dolichogenidea biplagae , Dolichogenidea bisulcata , Dolichogenidea catonix , Dolichogenidea chrysis , Dolichogenidea coffea , Dolichogenidea coretas , Dolichogenidea cyane , Dolichogenidea diaphantus , Dolichogenidea diparopsidis , Dolichogenidea dryas , Dolichogenidea earterus , Dolichogenidea ensiger , Dolichogenidea eros , Dolichogenidea evadne , Dolichogenidea falcator , Dolichogenidea gelechiidivoris , Dolichogenidea gobica , Dolichogenidea hyalinis , Dolichogenidea iriarte , Dolichogenidea lakhaensis , Dolichogenidea lampe , Dolichogenidea laspeyresiella , Dolichogenidea latistigma , Dolichogenidea lebene , Dolichogenidea lucidinervis , Dolichogenidea malacosomae , Dolichogenidea maro , Dolichogenidea mendosae , Dolichogenidea monticola , Dolichogenidea nigra , Dolichogenidea olivierellae , Dolichogenidea parallelis , Dolichogenidea pelopea , Dolichogenidea pelops , Dolichogenidea phaenna , Dolichogenidea pisenor , Dolichogenidea roepkei , Dolichogenidea scabra , Dolichogenidea statius , Dolichogenidea stenotelas , Dolichogenidea striata , Dolichogenidea wittei , Exoryza asotae , Exoryza belippicola , Exoryza hylas , Exoryza megagaster , Exoryza oryzae , Glyptapanteles aggestus , Glyptapanteles agynus , Glyptapanteles aithos , Glyptapanteles amenophis , Glyptapanteles antarctiae , Glyptapanteles anubis , Glyptapanteles arginae , Glyptapanteles argus , Glyptapanteles atylana , Glyptapanteles badgleyi , Glyptapanteles bataviensis , Glyptapanteles bistonis , Glyptapanteles borocerae , Glyptapanteles cacao , Glyptapanteles cadei , Glyptapanteles cinyras , Glyptapanteles eryphanidis , Glyptapanteles euproctisiphagus , Glyptapanteles eutelus , Glyptapanteles fabiae , Glyptapanteles fulvigaster , Glyptapanteles fuscinervis , Glyptapanteles gahinga , Glyptapanteles globatus , Glyptapanteles glyphodes , Glyptapanteles guierae , Glyptapanteles horus , Glyptapanteles intricatus , Glyptapanteles lamprosemae , Glyptapanteles lefevrei , Glyptapanteles leucotretae , Glyptapanteles lissopleurus , Glyptapanteles madecassus , Glyptapanteles marquesi , Glyptapanteles melanotus , Glyptapanteles melissus , Glyptapanteles merope , Glyptapanteles naromae , Glyptapanteles nepitae , Glyptapanteles nigrescens , Glyptapanteles ninus , Glyptapanteles nkuli , Glyptapanteles parasundanus , Glyptapanteles penelope , Glyptapanteles penthocratus , Glyptapanteles philippinensis , Glyptapanteles philocampus , Glyptapanteles phoebe , Glyptapanteles phytometraduplus , Glyptapanteles propylae , Glyptapanteles puera , Glyptapanteles seydeli , Glyptapanteles siderion , Glyptapanteles simus , Glyptapanteles speciosissimus , Glyptapanteles spilosomae , Glyptapanteles subpunctatus , Glyptapanteles thespis , Glyptapanteles thoseae , Glyptapanteles venustus , Glyptapanteles wilkinsoni , Hypomicrogaster samarshalli , Iconella cajani , Iconella detrectans , Iconella jason , Iconella lynceus , Iconella pyrene , Iconella tedanius , Illidops azamgarhensis , Illidops lamprosemae , Illidops trabea , Keylimepie striatus , Microplitis adisurae , Microplitis mexicanus , Neoclarkinella ariadne , Neoclarkinella curvinervus , Neoclarkinella sundana , Nyereria ituriensis , Nyereria nioro , Nyereria proagynus , Nyereria taoi , Nyereria vallatae , Parapanteles aethiopicus , Parapanteles alternatus , Parapanteles aso , Parapanteles atellae , Parapanteles bagicha , Parapanteles cleo , Parapanteles cyclorhaphus , Parapanteles demades , Parapanteles endymion , Parapanteles epiplemicidus , Parapanteles expulsus , Parapanteles fallax , Parapanteles folia , Parapanteles furax , Parapanteles hemitheae , Parapanteles hyposidrae , Parapanteles indicus , Parapanteles javensis , Parapanteles jhaverii , Parapanteles maculipalpis , Parapanteles maynei , Parapanteles neocajani , Parapanteles neohyblaeae , Parapanteles nydia , Parapanteles prosper , Parapanteles prosymna , Parapanteles punctatissimus , Parapanteles regalis , Parapanteles sarpedon , Parapanteles sartamus , Parapanteles scultena , Parapanteles transvaalensis , Parapanteles turri , Parapanteles xanthopholis , Pholetesor acutus , Pholetesor brevivalvatus , Pholetesor extentus , Pholetesor ingenuoides , Pholetesor kuwayamai , Promicrogaster apidanus , Promicrogaster briareus , Promicrogaster conopiae , Promicrogaster emesa , Promicrogaster grandicula , Promicrogaster orsedice , Promicrogaster repleta , Promicrogaster typhon , Sathon bekilyensis , Sathon flavofacialis , Sathon laurae , Sathon mikeno , Sathon ruandanus , Sathon rufotestaceus , Venanides astydamia , Venanides demeter , Venanides parmula , and Venanides symmysta .
Type of Medium:
Online Resource
ISSN:
1313-2970
,
1313-2989
DOI:
10.3897/zookeys.920.39128
DOI:
10.3897/zookeys.920.39128.figure1
DOI:
10.3897/zookeys.920.39128.figure10
DOI:
10.3897/zookeys.920.39128.figure100
DOI:
10.3897/zookeys.920.39128.figure101
DOI:
10.3897/zookeys.920.39128.figure102
DOI:
10.3897/zookeys.920.39128.figure103
DOI:
10.3897/zookeys.920.39128.figure104
DOI:
10.3897/zookeys.920.39128.figure105
DOI:
10.3897/zookeys.920.39128.figure106
DOI:
10.3897/zookeys.920.39128.figure107
DOI:
10.3897/zookeys.920.39128.figure108
DOI:
10.3897/zookeys.920.39128.figure109
DOI:
10.3897/zookeys.920.39128.figure11
DOI:
10.3897/zookeys.920.39128.figure110
DOI:
10.3897/zookeys.920.39128.figure111
DOI:
10.3897/zookeys.920.39128.figure112
DOI:
10.3897/zookeys.920.39128.figure113
DOI:
10.3897/zookeys.920.39128.figure114
DOI:
10.3897/zookeys.920.39128.figure115
DOI:
10.3897/zookeys.920.39128.figure116
DOI:
10.3897/zookeys.920.39128.figure117
DOI:
10.3897/zookeys.920.39128.figure118
DOI:
10.3897/zookeys.920.39128.figure119
DOI:
10.3897/zookeys.920.39128.figure12
DOI:
10.3897/zookeys.920.39128.figure120
DOI:
10.3897/zookeys.920.39128.figure121
DOI:
10.3897/zookeys.920.39128.figure122
DOI:
10.3897/zookeys.920.39128.figure123
DOI:
10.3897/zookeys.920.39128.figure124
DOI:
10.3897/zookeys.920.39128.figure125
DOI:
10.3897/zookeys.920.39128.figure126
DOI:
10.3897/zookeys.920.39128.figure127
DOI:
10.3897/zookeys.920.39128.figure128
DOI:
10.3897/zookeys.920.39128.figure129
DOI:
10.3897/zookeys.920.39128.figure13
DOI:
10.3897/zookeys.920.39128.figure130
DOI:
10.3897/zookeys.920.39128.figure131
DOI:
10.3897/zookeys.920.39128.figure132
DOI:
10.3897/zookeys.920.39128.figure133
DOI:
10.3897/zookeys.920.39128.figure134
DOI:
10.3897/zookeys.920.39128.figure135
DOI:
10.3897/zookeys.920.39128.figure136
DOI:
10.3897/zookeys.920.39128.figure137
DOI:
10.3897/zookeys.920.39128.figure138
DOI:
10.3897/zookeys.920.39128.figure139
DOI:
10.3897/zookeys.920.39128.figure14
DOI:
10.3897/zookeys.920.39128.figure140
DOI:
10.3897/zookeys.920.39128.figure141
DOI:
10.3897/zookeys.920.39128.figure142
DOI:
10.3897/zookeys.920.39128.figure143
DOI:
10.3897/zookeys.920.39128.figure144
DOI:
10.3897/zookeys.920.39128.figure145
DOI:
10.3897/zookeys.920.39128.figure146
DOI:
10.3897/zookeys.920.39128.figure147
DOI:
10.3897/zookeys.920.39128.figure148
DOI:
10.3897/zookeys.920.39128.figure149
DOI:
10.3897/zookeys.920.39128.figure15
DOI:
10.3897/zookeys.920.39128.figure150
DOI:
10.3897/zookeys.920.39128.figure151
DOI:
10.3897/zookeys.920.39128.figure152
DOI:
10.3897/zookeys.920.39128.figure153
DOI:
10.3897/zookeys.920.39128.figure154
DOI:
10.3897/zookeys.920.39128.figure155
DOI:
10.3897/zookeys.920.39128.figure156
DOI:
10.3897/zookeys.920.39128.figure157
DOI:
10.3897/zookeys.920.39128.figure158
DOI:
10.3897/zookeys.920.39128.figure159
DOI:
10.3897/zookeys.920.39128.figure16
DOI:
10.3897/zookeys.920.39128.figure160
DOI:
10.3897/zookeys.920.39128.figure161
DOI:
10.3897/zookeys.920.39128.figure162
DOI:
10.3897/zookeys.920.39128.figure163
DOI:
10.3897/zookeys.920.39128.figure164
DOI:
10.3897/zookeys.920.39128.figure165
DOI:
10.3897/zookeys.920.39128.figure166
DOI:
10.3897/zookeys.920.39128.figure167
DOI:
10.3897/zookeys.920.39128.figure168
DOI:
10.3897/zookeys.920.39128.figure169
DOI:
10.3897/zookeys.920.39128.figure17
DOI:
10.3897/zookeys.920.39128.figure170
DOI:
10.3897/zookeys.920.39128.figure171
DOI:
10.3897/zookeys.920.39128.figure172
DOI:
10.3897/zookeys.920.39128.figure173
DOI:
10.3897/zookeys.920.39128.figure174
DOI:
10.3897/zookeys.920.39128.figure175
DOI:
10.3897/zookeys.920.39128.figure176
DOI:
10.3897/zookeys.920.39128.figure177
DOI:
10.3897/zookeys.920.39128.figure178
DOI:
10.3897/zookeys.920.39128.figure179
DOI:
10.3897/zookeys.920.39128.figure18
DOI:
10.3897/zookeys.920.39128.figure180
DOI:
10.3897/zookeys.920.39128.figure181
DOI:
10.3897/zookeys.920.39128.figure182
DOI:
10.3897/zookeys.920.39128.figure183
DOI:
10.3897/zookeys.920.39128.figure184
DOI:
10.3897/zookeys.920.39128.figure185
DOI:
10.3897/zookeys.920.39128.figure186
DOI:
10.3897/zookeys.920.39128.figure187
DOI:
10.3897/zookeys.920.39128.figure188
DOI:
10.3897/zookeys.920.39128.figure189
DOI:
10.3897/zookeys.920.39128.figure19
DOI:
10.3897/zookeys.920.39128.figure190
DOI:
10.3897/zookeys.920.39128.figure191
DOI:
10.3897/zookeys.920.39128.figure192
DOI:
10.3897/zookeys.920.39128.figure193
DOI:
10.3897/zookeys.920.39128.figure194
DOI:
10.3897/zookeys.920.39128.figure195
DOI:
10.3897/zookeys.920.39128.figure196
DOI:
10.3897/zookeys.920.39128.figure197
DOI:
10.3897/zookeys.920.39128.figure198
DOI:
10.3897/zookeys.920.39128.figure199
DOI:
10.3897/zookeys.920.39128.figure2
DOI:
10.3897/zookeys.920.39128.figure20
DOI:
10.3897/zookeys.920.39128.figure200
DOI:
10.3897/zookeys.920.39128.figure201
DOI:
10.3897/zookeys.920.39128.figure202
DOI:
10.3897/zookeys.920.39128.figure203
DOI:
10.3897/zookeys.920.39128.figure204
DOI:
10.3897/zookeys.920.39128.figure205
DOI:
10.3897/zookeys.920.39128.figure206
DOI:
10.3897/zookeys.920.39128.figure207
DOI:
10.3897/zookeys.920.39128.figure208
DOI:
10.3897/zookeys.920.39128.figure209
DOI:
10.3897/zookeys.920.39128.figure21
DOI:
10.3897/zookeys.920.39128.figure210
DOI:
10.3897/zookeys.920.39128.figure211
DOI:
10.3897/zookeys.920.39128.figure212
DOI:
10.3897/zookeys.920.39128.figure213
DOI:
10.3897/zookeys.920.39128.figure214
DOI:
10.3897/zookeys.920.39128.figure215
DOI:
10.3897/zookeys.920.39128.figure216
DOI:
10.3897/zookeys.920.39128.figure217
DOI:
10.3897/zookeys.920.39128.figure218
DOI:
10.3897/zookeys.920.39128.figure219
DOI:
10.3897/zookeys.920.39128.figure22
DOI:
10.3897/zookeys.920.39128.figure220
DOI:
10.3897/zookeys.920.39128.figure221
DOI:
10.3897/zookeys.920.39128.figure222
DOI:
10.3897/zookeys.920.39128.figure223
DOI:
10.3897/zookeys.920.39128.figure224
DOI:
10.3897/zookeys.920.39128.figure225
DOI:
10.3897/zookeys.920.39128.figure226
DOI:
10.3897/zookeys.920.39128.figure227
DOI:
10.3897/zookeys.920.39128.figure228
DOI:
10.3897/zookeys.920.39128.figure229
DOI:
10.3897/zookeys.920.39128.figure23
DOI:
10.3897/zookeys.920.39128.figure230
DOI:
10.3897/zookeys.920.39128.figure231
DOI:
10.3897/zookeys.920.39128.figure232
DOI:
10.3897/zookeys.920.39128.figure233
DOI:
10.3897/zookeys.920.39128.figure234
DOI:
10.3897/zookeys.920.39128.figure235
DOI:
10.3897/zookeys.920.39128.figure236
DOI:
10.3897/zookeys.920.39128.figure237
DOI:
10.3897/zookeys.920.39128.figure238
DOI:
10.3897/zookeys.920.39128.figure239
DOI:
10.3897/zookeys.920.39128.figure24
DOI:
10.3897/zookeys.920.39128.figure240
DOI:
10.3897/zookeys.920.39128.figure241
DOI:
10.3897/zookeys.920.39128.figure242
DOI:
10.3897/zookeys.920.39128.figure243
DOI:
10.3897/zookeys.920.39128.figure244
DOI:
10.3897/zookeys.920.39128.figure245
DOI:
10.3897/zookeys.920.39128.figure246
DOI:
10.3897/zookeys.920.39128.figure247
DOI:
10.3897/zookeys.920.39128.figure248
DOI:
10.3897/zookeys.920.39128.figure249
DOI:
10.3897/zookeys.920.39128.figure25
DOI:
10.3897/zookeys.920.39128.figure250
DOI:
10.3897/zookeys.920.39128.figure251
DOI:
10.3897/zookeys.920.39128.figure252
DOI:
10.3897/zookeys.920.39128.figure253
DOI:
10.3897/zookeys.920.39128.figure254
DOI:
10.3897/zookeys.920.39128.figure26
DOI:
10.3897/zookeys.920.39128.figure27
DOI:
10.3897/zookeys.920.39128.figure28
DOI:
10.3897/zookeys.920.39128.figure29
DOI:
10.3897/zookeys.920.39128.figure3
DOI:
10.3897/zookeys.920.39128.figure30
DOI:
10.3897/zookeys.920.39128.figure31
DOI:
10.3897/zookeys.920.39128.figure32
DOI:
10.3897/zookeys.920.39128.figure33
DOI:
10.3897/zookeys.920.39128.figure34
DOI:
10.3897/zookeys.920.39128.figure35
DOI:
10.3897/zookeys.920.39128.figure36
DOI:
10.3897/zookeys.920.39128.figure37
DOI:
10.3897/zookeys.920.39128.figure38
DOI:
10.3897/zookeys.920.39128.figure39
DOI:
10.3897/zookeys.920.39128.figure4
DOI:
10.3897/zookeys.920.39128.figure40
DOI:
10.3897/zookeys.920.39128.figure41
DOI:
10.3897/zookeys.920.39128.figure42
DOI:
10.3897/zookeys.920.39128.figure43
DOI:
10.3897/zookeys.920.39128.figure44
DOI:
10.3897/zookeys.920.39128.figure45
DOI:
10.3897/zookeys.920.39128.figure46
DOI:
10.3897/zookeys.920.39128.figure47
DOI:
10.3897/zookeys.920.39128.figure48
DOI:
10.3897/zookeys.920.39128.figure49
DOI:
10.3897/zookeys.920.39128.figure5
DOI:
10.3897/zookeys.920.39128.figure50
DOI:
10.3897/zookeys.920.39128.figure51
DOI:
10.3897/zookeys.920.39128.figure52
DOI:
10.3897/zookeys.920.39128.figure53
DOI:
10.3897/zookeys.920.39128.figure54
DOI:
10.3897/zookeys.920.39128.figure55
DOI:
10.3897/zookeys.920.39128.figure56
DOI:
10.3897/zookeys.920.39128.figure57
DOI:
10.3897/zookeys.920.39128.figure58
DOI:
10.3897/zookeys.920.39128.figure59
DOI:
10.3897/zookeys.920.39128.figure6
DOI:
10.3897/zookeys.920.39128.figure60
DOI:
10.3897/zookeys.920.39128.figure61
DOI:
10.3897/zookeys.920.39128.figure62
DOI:
10.3897/zookeys.920.39128.figure63
DOI:
10.3897/zookeys.920.39128.figure64
DOI:
10.3897/zookeys.920.39128.figure65
DOI:
10.3897/zookeys.920.39128.figure66
DOI:
10.3897/zookeys.920.39128.figure67
DOI:
10.3897/zookeys.920.39128.figure68
DOI:
10.3897/zookeys.920.39128.figure69
DOI:
10.3897/zookeys.920.39128.figure7
DOI:
10.3897/zookeys.920.39128.figure70
DOI:
10.3897/zookeys.920.39128.figure71
DOI:
10.3897/zookeys.920.39128.figure72
DOI:
10.3897/zookeys.920.39128.figure73
DOI:
10.3897/zookeys.920.39128.figure74
DOI:
10.3897/zookeys.920.39128.figure75
DOI:
10.3897/zookeys.920.39128.figure76
DOI:
10.3897/zookeys.920.39128.figure77
DOI:
10.3897/zookeys.920.39128.figure78
DOI:
10.3897/zookeys.920.39128.figure79
DOI:
10.3897/zookeys.920.39128.figure8
DOI:
10.3897/zookeys.920.39128.figure80
DOI:
10.3897/zookeys.920.39128.figure81
DOI:
10.3897/zookeys.920.39128.figure82
DOI:
10.3897/zookeys.920.39128.figure83
DOI:
10.3897/zookeys.920.39128.figure84
DOI:
10.3897/zookeys.920.39128.figure85
DOI:
10.3897/zookeys.920.39128.figure86
DOI:
10.3897/zookeys.920.39128.figure87
DOI:
10.3897/zookeys.920.39128.figure88
DOI:
10.3897/zookeys.920.39128.figure89
DOI:
10.3897/zookeys.920.39128.figure9
DOI:
10.3897/zookeys.920.39128.figure90
DOI:
10.3897/zookeys.920.39128.figure91
DOI:
10.3897/zookeys.920.39128.figure92
DOI:
10.3897/zookeys.920.39128.figure93
DOI:
10.3897/zookeys.920.39128.figure94
DOI:
10.3897/zookeys.920.39128.figure95
DOI:
10.3897/zookeys.920.39128.figure96
DOI:
10.3897/zookeys.920.39128.figure97
DOI:
10.3897/zookeys.920.39128.figure98
DOI:
10.3897/zookeys.920.39128.figure99
DOI:
10.3897/zookeys.920.39128.suppl1
DOI:
10.3897/zookeys.920.39128.suppl2
Language:
Unknown
Publisher:
Pensoft Publishers
Publication Date:
2020
detail.hit.zdb_id:
2445640-8
SSG:
12