Neuroterus quercusbaccarum explained

The common spangle gall on the underside of leaves and the currant gall on the male catkins or occasionally the leaves, develop as chemically induced distortions on pedunculate oak (Quercus robur), or sessile oak (Quercus petraea) trees, caused by the cynipid wasp[1] Neuroterus quercusbaccarum which has both agamic and bisexual generations.

Previous names or synonyms for this species are Neuroterus baccarum, N. lenticularis, N. malpighii, Cynips lenticularis, C. quercus-baccarum, Spathegaster baccarum, S. varius, S. interruptor.[2]

Galls

The spangle gall generation on the underside of the oak leaves are flat discs, with a distinct central elevation, slightly hairy, yellow-green at first and reddish later, attached by a short stalk. These galls are up to 6 mm in diameter, unilocular, unilarval with a whitish or yellow undersurface; they mature in September, detach and fall to the ground before the leaves themselves.[3] The larva continue to develop in the fallen spangle and, protected by the leaf layer, they overwinter.[2] Any spangle galls that remain attached to the leaves dry and die.[3]

The smooth surfaced currant gall generation appears in April and lay unfertilised eggs in the staminate catkins or occasionally the developing young leaves. The resulting spherical galls are around 4 mm in diameter, unilocular and unilarval, green at first, maturing through pink to red, therefore closely resembling redcurrants.[2] [4]

Several different spangle type galls are found on oak leaves so close inspection is required for proper identification.[5]

The suckers at the base of older trees are often more heavily infested than the mature tree foliage. This may be due to the poor flying abilities of N. quercusbaccarum or it may relate to the physiological age of the leaves.[6]

The spangle galls are sometimes misidentified as scale insects.[7]

Distribution on the leaves

The distribution and numbers of spangle galls on mature oak trees differs from that on young trees; the differences could be partly due to the earlier date of leaf opening on mature trees. No spatial zonation of spangle galls was apparent on the mature trees.[3] Galls on catkins are less parasitised than those on leaves.[8]

Life cycle

The male and female of the bisexual generation emerge in June from the currant galls and after mating the fertilised eggs are laid in the lower epidermis of the oak leaves. The spangle galls develop over the winter and the insects emerge in April, laying their eggs in the catkins or lower epidermis. The cycle, an alternation of generation, then begins again.[2]

Gallery

File:Common Spangle gall.JPG|left|upright|Common spangle galls on a Quercus robur leafFile:Common Spangle Gall - leaf upper.JPG|Upper surface of galled leafFile:Currant Gall Neuroterus quercusbaccarum on Sessile Oak Quercus petraea (27881771009).jpg|Sexual generation gallFile:Eikennapjesgal Neuroterus albipes forma laeviusculus-levelsadjust-mask.jpg|The gall wasp N. albipes, similar to N. quercusbaccarumFile:2021 07 27 Torymus auratus 1b.jpg| Parasitoid Torymus auratus

Predators, inquilines, and parasitoids

Spangles lying on the ground are often eaten by gamebirds and both of these galls are prone to being colonised by a variety of other organisms.[2] Synergus spp. are inquilines which attack small galls, and the primary parasitoid Mesopolobus tibialis attacks medium size galls and Torymus auratus attacks large galls. The two parasitoids affect the final mature size of the spangle galls, highlighting the galling insects chemical influence upon the host plant.[9]

Infestations

From 80 to 100 spangle galls can develop on the underside of each leaf and therefore vast numbers fall onto the ground in September, sometimes completely colouring and covering the ground.[2] Infestations do not have any serious effect upon galled trees.[7]

Distribution

N. quercusbaccarum is found throughout Europe, Asia Minor and North Africa.[10]

See also

External links

Notes and References

  1. Web site: Oak Spangle Galls . https://web.archive.org/web/20060925084131/http://www.aie.org.uk/trunkline/pests/aie_pd_spangle.html . September 25, 2006 . Arboricultural Information Exchange . August 15, 2009.
  2. Book: Darlington, Arnold . 1968 . The Pocket Encyclopaedia of Plant Galls in Colour . . 0-7137-0748-8 . 161.
  3. R. R. Askew . 1962 . The distribution of galls of Neuroterus (Hym: Cynipidae) on oak . . 31 . e3 . 439–455 . 10.2307/2045 . 2045. 1962JAnEc..31..439A .
  4. Book: Stubbs, F. B. . 1986 . Provisional Keys to British Plant Galls . . 0-9511582-0-1 . 48.
  5. Web site: Oak Common Spangle gall . A Nature Observer's Scrapbook . August 15, 2009 . September 23, 2010 . https://web.archive.org/web/20100923181701/http://bugsandweeds.co.uk/galls%20p1.html . dead .
  6. J. S. Hough . 1953 . Studies on the common spangle gall of oak. III. The importance of the stage in laminar extension of the host leaf . . 52 . 3 . 229–237 . 2429572 . 10.1111/j.1469-8137.1953.tb07513.x. free .
  7. Web site: Oak galls . . August 15, 2009 . dead . https://web.archive.org/web/20090715180010/http://www.rhs.org.uk/advice/profiles0900/oak_galls.asp . July 15, 2009 .
  8. Olivier Plantard & Michael E. Hochberg . 1998 . Factors affecting parasitism in the oak-galler Neuroterus quercusbaccarum (Hymenoptera: Cynipidae) . . 81 . 2 . 289–298 . 10.2307/3547049 . 3547049. 1998Oikos..81..289P .
  9. Oliver Plantard, Jean-Yves Rasplus & Michael E. Hochberg . 1997 . Resource partitioning in the parasitoid assemblage of the oak galler Neuroterus quercusbaccarum L. (Hymenoptera: Cynipidae) . 17 . 1 . 1–15 .
  10. Web site: Common Spangle Gall Wasp . . August 15, 2009 . dead . https://web.archive.org/web/20080618230307/http://www.probertencyclopaedia.com/cgi-bin/res.pl?keyword=Common+Spangle+Gall+Wasp&offset=0 . June 18, 2008 .