Epinotia nigralbana (Walsingham),

Eiseman, Charles S., Austin, Kyhl A., Blyth, Julia A. & Feldman, Tracy S., 2020, New records of leaf-mining Tortricidae (Lepidoptera) in North America, with the description of a new species of Grapholita, Zootaxa 4748 (3), pp. 514-530: 517

publication ID

https://doi.org/10.11646/zootaxa.4748.3.6

publication LSID

lsid:zoobank.org:pub:2500FC7C-8D0B-4E98-8222-916D17819B7A

DOI

http://doi.org/10.5281/zenodo.3705885

persistent identifier

http://treatment.plazi.org/id/038787A4-117E-B705-61B2-FF2B01F5FBC1

treatment provided by

Plazi

scientific name

Epinotia nigralbana (Walsingham)
status

 

Epinotia nigralbana (Walsingham) 

( Figs. 7–13View FIGURES 7–13)

Material examined. CALIFORNIA: San Diego Co., Pacific Crest Trail (Barrel Spring: 33.210401, -116.580605), 12.iii.2017, em. 15.iv.2017, C.S. Eiseman & J.A. Blyth, ex Arctostaphylos  , # CSE3494 (1♀, CUIC); em. 24.iv.2017, # CSE3556 (1♂, CUIC)GoogleMaps  .

Hosts. Ericaceae  : Arbutus menziesii Pursh  , Arctostaphylos hooveri P.V.Wells  , A. manzanita Parry  , A. montana Eastw.  , A. patula Greene  , A. virgata Eastw. ( Powell 2006)  .

Biology. According to Powell & Opler (2009), E. nigralbana  “mines the leaves of madrone and manzanita during winter, maturing in March to May, and adults fly April to August... [Young larvae] mine a thin loop from the leaf margin, defining a circular area, into which they mine digitate extensions after overwintering. Pupation occurs in the mine.” We have found active mines in Oregon on 21 October, by which time the larvae had already begun mining digitate extensions into the semicircular area delineated by the initial arc ( Fig. 7View FIGURES 7–13). All frass is expelled from a hole at one end of the arc. Our two reared California specimens ( Figs. 12–13View FIGURES 7–13) were collected as larvae on 12 March; in both cases the leaf was completely mined out at this time (the initial arc still discernable), with oblong fecal pellets scattered throughout ( Fig. 8View FIGURES 7–13). One larva (CSE3556) pupated within the original leaf, and the pupal exuviae were left protruding from the mine when the adult emerged. The other larva (CSE3494) had tied the edge of a second leaf to the upper surface of the original leaf, without any obvious silk on the surface of either leaf, and had formed a frass-free blotch in the adjacent portion of the fresh leaf ( Fig. 9View FIGURES 7–13). In captivity the latter larva continued to feed in the new leaf, apparently with a silk tunnel running through the middle of the mine, with frass deposited along either side. When finished feeding it chewed a conspicuous circular exit hole and pupated in a cocoon spun in the bottom of the rearing vial. At the same collection site we found another mine in which the larva had formed an elongate blotch along the leaf margin (proceeding from the initial arc), with a similar pattern of frass flanking a central silk gallery ( Fig. 10View FIGURES 7–13). There was a similar round hole at the end of this mine, suggesting pupation at least sometimes takes place outside the mine under natural conditions.

Comments. To our knowledge, no illustration or description of the female genitalia of Epinotia nigralbana  has ever been published. Heinrich (1926) figured the male genitalia but omitted the female. To that end, we figure the female genitalia here ( Fig. 13View FIGURES 7–13).

CUIC

Cornell University Insect Collection