Valid Names Results

Didesmococcus unifasciatus (Archangelskaya, 1923) (Coccidae: Didesmococcus)

Nomenclatural History

Physokermes unifasciatus Archangelskaya 1923: 265. Type data: UZBEKISTAN: Samarkand, on Persica sp.. Syntypes, female, Type depository: St. Petersburg: Zoological Museum, Academy of Science, Russia; accepted valid name
Physokermes (Eulecanium) unifasciatus; Archangelskaya 1931: 79. subsequent use
Sphaerolecanium unifasciatus (Archangelskaya, 1923); Kiritshenko 1936: 70. change of combination
Lecanium unifsciatus (Archangelskaya, 1923); Borchsenius 1937: 85. change of combination
Eriochiton amygdalae Rao 1939: 59. Type data: PAKISTAN: Baluchistan, Loralai, on almond tree.. Holotype, female, Type depository: St. Petersburg: Zoological Museum, Academy of Science, Russia; junior synonym (discovered by Tang1991, 102).
Eulecanium unifasciatus (Archangelskaya, 1923); Borchsenius 1949c: 172. Type depository: Shanxi: Entomological Institute, Shanxi Agricultural University, Taigu, Shanxi, China; change of combination
Didesmococcus unifasciatus (Archangelskaya, 1923); Borchsenius 1953: 282. change of combination
Didesmococcus megriensis Borchsenius 1953: 282. Type data: USSR: Armenia, Megri, on Persica vulgaris, Amygdalus communis, Armeniaca sp. and Prunus sp.. Syntypes, female, Type depository: St. Petersburg: Zoological Museum, Academy of Science, Russia; junior synonym (discovered by Danzig1970, 1017).

Common Names

Ecological Associates

Hosts:

Families: 3 | Genera: 6

Moraceae

Ficus carica | TerGri1956

Rosaceae

Chaenomeles sinensis | Varshn1992 | (= Cydonia vulgaris)
Malus domestica | Potaev1993 TorabiVaHo2010
Malus pumila | Varshn1992
Prunus | Borchs1957 Borchs1960b Potaev1993 Potaev1999 TerGri1956 TorabiVaHo2010 | (= Amygdalus, Armeniaca)
Prunus amygdalus | Hodgso1994a Moghad2013 TerGri1956 | (= Persica)
Prunus pedunculata | Danzig1977a | (= Amygdalus pedunculata)
Prunus persica | Borchs1957 KaydanKo2010 MoghadTa2010 | (= Amygdalus communis, Persica vulgaris)
Prunus prostrata | Borchs1957 Hodgso1994a TerGri1956 | ssp. concolor
Prunus scoparia | TorabiVaHo2010 | (= Amygdalus scoparia)
Prunus tenella | Borchs1957 | (= Amygdalus nana)
Pseudocydonia sinensis | EFSA2023i | (= Chaenomeles sinensis) (= Cydonia vulgaris)

Ulmaceae

Ulmus | Potaev1999

Foes:

Families: 5 | Genera: 10

Aphelinidae

Coccophagus kabulensis | Sugony1985
Coccophagus lycimnia | Bolu2012
Coccophagus piceae | Bolu2012
Coccophagus scutellaris | EFSA2023i

Coccinellidae

Chilocorus bipustulatus | EFSA2023i
Exochomus | EFSA2023i

Encyrtidae

Blastothrix sericea | YousefVaEb2018
Habrolepis dalmanni | FallahJa2017
Metaphycus | Bolu2012
Metaphycus babajani | BabayaOg1985 Potaev1999
Metaphycus claviger | DavoodTaFa2004
Metaphycus pulvinariae | DavoodTaFa2004
Metaphycus punctipes | EFSA2023i
Microterys | BabayaOg1985 Bolu2012
Microterys cuprinus | FallahJa2017
Microterys hortulanus | FallahJa2017 EFSA2023i
Microterys nuticaudatus | DavoodTaFa2004
Microterys sylvius | EFSA2023i

Noctuidae

Calymma communimacula | EFSA2023i
Eublemma scitula | EFSA2023i

Pteromalidae

Pachyneuron | Potaev1999

Geographic Distribution

Countries: 11

Afghanistan | KozarFoZa1996 Siddiq1966 Sugony1985

Armenia | Hodgso1994a TerGri1956 TerGri1966a

China

Nei Monggol (=Inner Mongolia) | BenDov1993

Iran | KozarFoZa1996 Moghad2009 TorabiVaHo2010

Lebanon | Hodgso1994a

Mongolia | BenDov1993

Pakistan | Rao1939

Tajikistan (=Tadzhikistan) | BenDov1993

Turkey | CiftciBo2021 KaydanKo2010

Turkmenistan | Potaev1993 Potaev1999

Uzbekistan | Archan1923

Keys

Tang1991: pp.101 ( Adult (F) ) [China]
Borchs1957: pp.311 ( Adult (F) ) [Palaearctic region ]

Remarks

Structure: The females are large and globular, dark red in color with a red horizontal band about 0.8 mm wide. This band lies over the anterior abdominal terga of the animal. The colour of the body is wine red, except for the terga which has a lighter colour throughout the preoviposition phase. Adult females have eight antennal segments. (EFSAi, 2023)
Biology: It completes one generation per year in Lebanon; adults of both sexes appear and mate during April. Fertilised females double their size between the end of April, when copulation occurs and the oviposition period in mid-June. A female lays between 1,500 and 2,400 eggs in 3 to 5 days, and egg hatching occurs 4 to 5 days later. The female passes through three nymphal instars and the male through four instars. The emerging crawlers feed for several weeks and enter a summer diapause. They may settle under empty male tests (waxy covers that protect the pupal stage) or any other cover that gives them protection from direct sunlight. In autumn they moult and the nymphs settle in dense colonies on tree twigs, branches and seldom on the trunk of mature trees; in almonds, many nymphs settle in the folds of bark at the base of spurs (young branches) (Talhouk, 1975). After feeding for a while, they may undergo a winter diapause, as second instar nymphs, which lasts till the following spring (Gerson and Applebaum, 2019). (EFSA2023i)
General Remarks: Good description and illustration of the adult female given by Hodgson (1994a). Good description of the adult female, first-instar nymph, female last-instar nymph and male last-instar nymph given by Borchsenius (1957). Detailed color photos of life stages and infestations in Bolu (2024).

Illustrations

Bolu2024

Citations

Archan1923: description, distribution, host, illustration, taxonomy, 265
Archan1931: description, distribution, host, illustration, taxonomy, 79-81
Archan1937: description, distribution, host, illustration, taxonomy, 40-42
Babaia1987: distribution, economic importance, host, 133
BabayaOg1985: biological control, chemical control, distribution, economic importance, host, 18-19
BenDov1993: catalog, 106-107
Bolu2012: distribution, host, 107-114
Bolu2024: biology, economic importance, host, illustration, life cycle, male, natural enemies, nymph,
Borchs1937: description, distribution, host, illustration, taxonomy, 84-85
Borchs1949d: taxonomy,
Borchs1950b: distribution, host, taxonomy, 149
Borchs1953: taxonomy, 282-283
Borchs1957: description, distribution, host, illustration, taxonomy, 315-322
CamachCh2015: distribution, host, host distribution, host plant, host plants, illustration, importance, infra-red, 8, 12
CiftciBo2021: distribution, host, 236
Danzig1970: taxonomy, 1017-1018
Danzig1972: distribution, host, 201
Danzig1972c: distribution, host, 582
Danzig1974: distribution, host, 70
Danzig1977a: distribution, host, 201
DavoodTaFa2004: biological control, distribution, 51-66
EFSA2023i: diagnosis, distribution, host, natural enemies, taxonomy,
FallahJa2017: distribution, natural enemies, 14, 21, 22, 33
FowjhaKo1994: distribution, host, 344
GillKo1997: distribution, economic importance, host, 161-163
Hodgso1994: taxonomy, 171-172
Hodgso1994a: description, distribution, host, illustration, taxonomy, 221-224
KaydanKo2010: distribution, host, 198
Kiritc1932a: taxonomy, 262
Kiritc1936: distribution, host, 70
KondoWa2022a: distribution, host, list, 10
KozarFoZa1996: distribution, host, 65
KozarWa1985: catalog, distribution, 77
Moghad2009: distribution, host, 7-8
Moghad2013a: distribution, host, 9
MoghadTa2010: distribution, host, 31-32
Potaev1993: distribution, host, 35, 37
Potaev1999: biological control, distribution, economic importance, host, life history, taxonomy, 77
Rao1939: distribution, host, taxonomy, 59-60
Siddiq1966: distribution, economic importance, host, 4-5
Sugony1985: biological control, distribution, host, 31-33
Tang1991: description, distribution, host, taxonomy, 102-104
TangLi1988: description, distribution, host, illustration, taxonomy, 96,97
Tao1999: distribution, host, taxonomy, 55
TerGri1956: description, distribution, host, illustration, taxonomy, 42-43
TerGri1966a: distribution, host, 371
TorabiVaHo2010: distribution, host, 153-162
UlgentErYa2022: distribution, host, S116
Varshn1992: distribution, host, 89
YousefVaEb2018: natural enemies,