Valid Names Results

Acanthococcus aceris Signoret, 1875 (Eriococcidae: Acanthococcus)

Nomenclatural History

Acanthococcus aceris Signoret 1875b: 35-36. accepted valid name Notes: "No original material has been traced. The specimens from Austria, one of the type-localities, are from the Naturhistorisches Museum, Vienna, identified by F. Löw, and the specimens from Switzerland are from the collection of P. Marchal. There seems to be no doubt about the identity of the species now recognized as such by many modern workers." (Williams, 1985h) Matile-Ferrero & Danzig visited the Naturhistorisches Museum, Vienna in June of 1997 and were unable to locate any type material of this species.
Eriococcus aceris (Signoret, 1875); Cockerell 1896b: 323. change of combination
Nidularia aceris (Signoret, 1875); Lindinger 1933a: 108. change of combination
Eriococcus aceris (Signoret, 1875); Miller & Gimpel 2000: 113. revived combination (previously published)
Acanthococcus aceris Signoret, 1875; Kozár & Konczné Benedicty 2008. revived combination (previously published)
Acanthococcus melnikensis; Gavrilov-Zimin 2010: 38. incorrect synonymy (discovered by KozarKaKo2013, 83).

Common Names

maple felt scale KosztaKo1988F

Ecological Associates

Hosts:

Families: 10 | Genera: 13

Asteraceae

Galatella villosa | Willia1985h

Betulaceae

Carpinus betulus | Hoy1963 KozarGuBa1994

Elaeagnaceae

Elaeagnus angustifolia | Hoy1963

Fagaceae

Fagus sylvatica | Hoy1963
Quercus | UlgentDo2019
Quercus coccifera | SpodekBeMe2014 | (= Quercus calliprinos)
Quercus ithaburensis | SpodekBeMe2014
Quercus pubescens | MarottTr1990
Quercus robur | Hoy1963

Myrtaceae

Myrtus communis | KozarKaKo2013

Platanaceae

Platanus orientalis | Hoy1963 UlgentDo2019

Rosaceae

Malus | Kohler1998
Pyrus | Kohler1998

Salicaceae

Salix caprea | Hoy1963

Sapindaceae

Acer | JaposhBaKi2020
Acer campestre | KozarKaKo2013
Acer circinatum | KozarKaKo2013 | (=Acer cinereus)
Acer platanoides | Willia1985h
Acer pseudoplatanus | Cocker1897m
Aesculus hippocastanum | Willia1985h

Ulmaceae

Ulmus glabra | Willia1985h | (= Ulmus campestris)
Ulmus laevis | Hoy1963

Foes:

Families: 5 | Genera: 9

Aphelinidae

Coccophagus lycimnia | KosztaKo1988F

Coccinellidae

Exochomus quadripustulatus | KosztaKo1988F

Encyrtidae

Anagyrus schoenherri | KosztaKo1988F
Arrhenophagus chionaspidis | KosztaKo1988F
Microterys trjapitzini | KosztaKo1988F
Syrphophagus lineola | KosztaKo1988F | (= Microterys lineola)
Zaomma eriococci | KosztaKo1988F
Zaomma lambinus | JaposhCe2010

Pteromalidae

Pachyneuron muscarum | KosztaKo1988F | (= Pachyneuron concolor)

Trombidiidae

Allothrombium fuliginosum | KosztaKo1988F

Associates:

Families: 2 | Genera: 2

Burkholderiaceae

Burkholderia | MichalSzKa2019

Formicidae

Formicidae | KosztaKo1988F

Geographic Distribution

Countries: 24

Austria | GavrilKu2019 Hoy1963

Bulgaria | GavrilKu2019 HodgsoTr2008 KosztaKo1988F Tsalev1968

Croatia | MastenSi2008

Cyprus | KozarKaKo2013

Czechoslovakia | KosztaKo1988F

France | Foldi2001 Hoy1963

Georgia (Republic of) | BatsanKaKi2017 GavrilKu2019

Germany | GavrilKu2019 Hoy1963 SchmutHo2016

Hungary | Hoy1963

Iran | Moghad2018b

Iraq | Hoy1963

Israel | SpodekBeMe2014

Italy | MarottTr1990

Moldova | KozarKaKo2013

Netherlands | Hoy1963 Jansen2001

Poland | GavrilKu2019 KosztaKo1988F SimonKa2011

Romania | Kozar1985 Rogoja1966

Russia | GavrilKu2019

Stavrapol Oblast | Danzig1985

Slovenia | KozarKaKo2013

Switzerland | Hoy1963

Turkey | KaydanKo2008 UlgentKaKo2013

Turkmenistan | Hoy1963

Ukraine | Hoy1963

Krym (=Crimea) Oblast | Hoy1963

Yugoslavia | Kozar1983a

Keys

GavrilKu2019: pp.223 ( Adult (F) ) [Eriococcidae on Salix]
KozarKaKo2013: pp.75-77 ( Adult (F) ) [Key to species of Acanthococcus]
HodgsoTr2008: pp.36-37 ( Adult (F) ) [Key for separation of adult female Eriococcidae on Qurcus sp. in western Palaearctic] Key as: Eriococcus aceris
TangHa1995: pp.449, 646 ( Adult (F) ) [Eriococcus species] Key as: Eriococcus aceris
KosztaKo1988F: pp.277 ( Adult (F) ) [Acanthococcus species of central Europe] Key as: Eriococcus aceris
TranfaEs1985: pp.116 ( Adult (F) ) [Eriococcus species of Italy] Key as: Eriococcus aceris
Terezn1982: pp.35 ( Adult (F) ) [Acanthococcus species]
Danzig1971d: pp.821 ( Adult (F) ) [Key to species of family Eriococcidae] Key as: Eriococcus aceris
Danzig1964: pp.632 ( Adult (F) ) [Acanthococcus species of USSR] Key as: Eriococcus aceris
Borchs1938: pp.135 ( Adult (F) ) [Species of the Far Eastern USSR] Key as: Eriococcus aceris

Remarks

Systematics: Slide-mounted adult female with: dorsal setae abundant over dorsum; microtubular ducts bifid; frontal lobes slightly smaller than first antennal segment; anal lobes with medial teeth and 3 dorsal enlarged setae (Williams, 1985h). According to Hodgson & Trencheva (2008), the first-instar nymph of A. aceris is easily separable from that of A. melnikensis and A. roboris because all of the dorsal spinose setae forming the double mid-line are sharply pointed and subequal in size. Those of A. melnikensis and A. roboris are basically of two sizes, those on abdominal segments II-V being small to minute; and all spines are truncate rather than sharply pointed. In addition, the 1st instar nymph of A. aceris lacks spinose seta submedially on the head, whereas one is present on each side of A. melnikensis and A. roboris. Gavrilov, 2010, stated that it is not known if the differences between larvae from different localities different host plants, etc are likely to be significant. However, he stated that a comparison of adults of A. melnikensis and adults of A. aceris in a collection in St. Petersburg from different locations, suggested that these two species appeared to be identical and he considered A. melnikensis a new junior synomym of A. aceris. However, Spodek, et al., 2014, compared specimens of A. melnikensis from Israel and A. aceris from Greece and Hungary and concluded that they were different species. Adult female A. aceris differ from those of A. roboris in having (character traits of A. roboris in brackets): (i) all measurements rather smaller; (ii) few or no small macrotubular ducts ventrally on abdominal segment VII (8-12): (iii) fewer than 10 small macrotubular ducts present across abdominal segment VI-II (mainly more than 15 and sometimes over 30 across some segments); (iv) segment III of the antennae without setae (setae apparently always present on segment III on A. roboris). (Hodgson & Trencheva, 2008) The 2nd-instar male is immediately separable from the 2nd-instar female by the presence of macrotubular ducts. It differs from the 2nd-instar male of E. roboris in being rather smaller, in having fewer cruciform pores, in the shape of the median plate, and in geneally having small submedial truncate dorsal setae only on abdominal segments VI and VII (rather than II-VII). (Hodgson & Trencheva, 2008)
Structure: Ovisac compact, gray. Adult female oval, chestnut colored, covered with white wax powder (Kosztarab & Kozár, 1988).
Biology: Species overwinters as second instar. Adults develop by the first half of April and complete egg laying by the end of May. 82-378 red eggs are laid per female. Eggs hatch in about 30-35 days. First instars feed on leaves, and return to bark for overwintering in September and October. In Hungary, all eggs hatched by mid June. Also has been found at altitudes of up to 1,500 m in elevation. The species has also been observed with ants feeding on the honeydew (Kosztarab & Kozár, 1988).
Economic Importance: This species is rarely a pest in urban situations (Kosztarab & Kozár, 1988).
General Remarks: Detailed description and illustration by Williams (1985h)Gavrilov-Zimin & Kurochkin (2019).. According to Borchsenius (1934) the species does not occur in middle Asia as recorded by Archangelskaya (1923). Detailed description and illustrations in Hodgson & Trencheva (2008).

Illustrations

Citations

AbdulWNo1978: chemical control, description, distribution, host, illustration, life history, 57-61
Archan1923: distribution, host, 261
Balach1937c: distribution, host, life history, 5
BalasSa1982: distribution, host, life history, 398-399
BarbagBiBo1995: distribution, 42
BarethVa1976: taxonomy, 211
BatsanKaKi2017: distribution, host, 253
Bodenh1935: taxonomy, 271
BognarVi1979: distribution, host, 16
Borchs1934: distribution, host, taxonomy, 13
Borchs1936: distribution, host, 111
Borchs1937: distribution, illustration, 59
Borchs1937a: distribution, host, 173, 181,184,186-187
Borchs1938: behavior, distribution, host, taxonomy, 131, 135, 137
Borchs1948: taxonomy, 501
Borchs1949: description, distribution, host, taxonomy, 48-50, 52, 333, 347
Borchs1950b: distribution, taxonomy, 121
Borchs1960a: taxonomy, 195
Borchs1963a: distribution, host, 161, 163, 164
Borchs1973: host, 164
BugajNJuKa2021: distribution, host, list, 301
Cocker1896b: taxonomy, 323
CookGu2001: taxonomy, 60
Danzig1964: taxonomy, 632
Danzig1971d: taxonomy, 821
Danzig1975a: taxonomy, 44
Danzig1977b: distribution, host, taxonomy, 50
Danzig1980b: taxonomy, 3, 75, 205, 207
Danzig1985: taxonomy, 111
Dziedz1970: distribution, host, taxonomy, 25
Dziedz1977: structure, 59
Dziedz1988: host, taxonomy, 94
Fernal1903b: taxonomy, 70
FetykoKoDa2010: distribution, 295
Foldi2001: distribution, economic importance, 305, 307
FoldiGe2018: distribution, 10
Gavril2010: description, taxonomy, 38-39
GavrilKu2019: description, distribution, illustration, key, taxonomy, 212
Goot1912: host, taxonomy, 290
Goux1931: distribution, host, taxonomy, 332
Goux1931a: distribution, host, 60, 63
Goux1936a: taxonomy, 346
Goux1938: taxonomy, 457
Goux1943b: distribution, life history, 128
Green1922: taxonomy, 351
GullanCo2001: taxonomy, 95
GwiazdVaDe2006: phylogenetics, 16
Hadzib1983: distribution, host, taxonomy, 269
Hellri2004: distribution, host, 84
HertinSi1972: biological control, 131
HodgsoHa2013: phylogeny, taxonomy, 797
HodgsoHe1996: taxonomy, 192
HodgsoMi2010: description, illustration, taxonomy, 7-9
HodgsoTr2008: description, distribution, host, illustration, taxonomy, 12-31
Hoy1963: catalog, distribution, host, taxonomy, 66-67
ICZN1982: taxonomy, 95
Jaap1914: taxonomy, 136
Jansen2001: distribution, 200
JaposhBaKi2020: distribution, host, 62
JaposhCe2010: 134
Kaweck1936a: distribution, host, 320
Kaweck1957: distribution, host, 198
Kaweck1985: distribution, host, taxonomy, 27-28
Kiritc1928: distribution, host, 112
Kiritc1931: distribution, host, taxonomy, 312
Kohler1998: catalog, distribution, host, taxonomy, 372
KondoHaCo2006: host, phylogeny, 23
KondoWa2022a: distribution, host, list, 20
Koszta1956a: distribution, host, 395
Koszta1959: biological control, distribution, host, 402
KosztaKo1978: taxonomy, 65
KosztaKo1988F: biological control, description, distribution, host, illustration, life history, taxonomy, 278-279
Koteja1974: taxonomy, 296
Koteja1974b: distribution, structure, taxonomy, 76
Koteja1976: structure, 272
Koteja1983a: distribution, host, 675
Koteja1988d: taxonomy, 534
Koteja2000a: distribution, 172
Koteja2000d: distribution, 242
KotejaLi1976: structure, 666
KotejaZa1966: distribution, host, 319
KotejaZa1969: distribution, 354
KotejaZa1979: distribution, host, 674
KotejaZa1981: taxonomy, 512, 513
KotejaZa1983: distribution, host, 476
Kozar1980: distribution, host, 67
Kozar1983a: distribution, host, taxonomy, 142
Kozar1985: distribution, 202
Kozar1991: taxonomy, 81
Kozar1999a: distribution, host, 139
Kozar2009: distribution, taxonomy, 93
Kozar2009a: distribution, 582
KozarDr1991: distribution, host, 362
KozarGuBa1994: distribution, host, 153
KozarKaKo2013: description, distribution, host, illustration, structure, taxonomy, 82-86
KozarKiSa2004: distribution, 59
KozarKo1982: distribution, host, taxonomy, 204
KozarKo2002b: distribution, 375
KozarOrKo1977: distribution, host, taxonomy, 71
KozarSu1979: biological control, distribution, 234
KozarSzFe2013: distribution, list of species, 83, 96, 112, 131, 148, 168, 187
KozarWa1985: catalog, distribution, 73
KozarzVl1981: host, 16, 20, 23
KozarzVl1982: distribution, host, 188
Lagows1998a: ecology, 65
LagowsGo2020: distribution, 69
Lichte1882: description, taxonomy, 58
Lichte1882f: host, 329
Lindin1910: taxonomy, 192
Lindin1911: taxonomy, 357
Lindin1912b: host, taxonomy, 54
Lindin1923: taxonomy, 146
Lindin1930: distribution, host, taxonomy, 102
Lindin1933a: taxonomy, 108
Lindin1935: taxonomy, 134
Lindin1938: distribution, taxonomy, 5
LongoMaPe1995: distribution, 121
LongoRuMa1991: distribution, host, 184
Low1882: description, distribution, host, taxonomy, 81-85
Low1883: taxonomy, 7
Marcha1908: description, distribution, host, illustration, taxonomy, 251-253
MarottTr1990: distribution, host, 109
MarottTr2001: illustration, taxonomy, 134, 135
MastenSi2008: catalog, distribution, host, 105-119
MichalBaSz2023: symbiont,
Miller1991: taxonomy, 333
MillerGi2000: biological control, catalog, description, distribution, economic importance, host, taxonomy, 113-115
MillerWi1976: taxonomy, 121
Moghad2018b: distribution,
NastChKl1990: distribution, taxonomy, 120
OuvrarKo2009: host, phylogeny, taxonomy, 101-115
Panis1981: distribution, 6
PellizChMi2015: distribution, 67
PellizKo2011: distribution, 66
Pierce1917: distribution, economic importance, host, 39, 147, 153
Pierre1928: distribution, host, 5, 7
Reyne1964: taxonomy, 11
RipkaReKo1996: distribution, host, 8
Rogoja1966: distribution, host, 324
Schmut1952: description, distribution, host, taxonomy, 378, 406
Schmut1955: taxonomy, 159
Schmut1980: taxonomy, 50
SchmutHo2016: distribution, host, illustration, 48, 83, 88
Signor1875b: description, distribution, host, taxonomy, 35-36
SimonKa2011: distribution, 237
SpodekBeMe2014: distribution, host, illustration, 106, 115
StoetzMi1979: catalog, taxonomy, 4
TangHa1995: description, distribution, host, taxonomy, 454-455, 449, 646
Teodor2018: distribution, history, 43
TerGri1962: distribution, host, taxonomy, 131, 152, 156
TerGri1969a: distribution, taxonomy, 78, 79
TerGri1983: taxonomy, 879
Terezn1959b: distribution, 448
Terezn1959d: taxonomy, 93
Terezn1960a: distribution, host, life history, 537-538
Terezn1963: distribution, host, 187
Terezn1966: distribution, host, taxonomy, 25
Terezn1967a: distribution, 474
Terezn1968b: distribution, 49
Terezn1968c: distribution, taxonomy, 49
Terezn1970: distribution, host, taxonomy, 45
Terezn1975: taxonomy, 29
Terezn1981: biological control, distribution, 15-17
Terezn1982: distribution, taxonomy, 35
TranfaEs1985: description, distribution, host, illustration, taxonomy, 116-118
TranfaMa1988: host, taxonomy, 609
TranfaPeMa1985: distribution, host, 123
TrenchTo2014: distribution, 66, 67
Tsalev1968: distribution, host, taxonomy, 207
UlgentDo2019: distribution, host, 485
UlgentErYa2022: distribution, host, S115
UlgentKaKo2013: distribution, host, 28
Willia1985h: description, distribution, host, illustration, taxonomy, 358-359
Willia2017a: catalog, list of species, 235
Wunn1925: distribution, host, 123
Wunn1925b: description, distribution, host, taxonomy, 285
Wunn1925c: distribution, host, 436
Wunn1926: distribution, host, 48
Zahrad1959a: taxonomy, 540
Zahrad1972: biological control, distribution, host, taxonomy, 401
Zahrad1977: taxonomy, 121
ZahradRo1995: distribution, 205
ZakOgaKo1964: distribution, host, life history, taxonomy, 419, 425, 434, 435