Fig. 135. Bug (Hemiptera: Heteroptera) in Dominican amber.
Fig. 137. Leafhopper (Homoptera: Cicadellidae) in Dominican amber.
Fig. 138. Planthopper (Homoptera: Fulgoroidea) in Baltic amber.
Fig. 139. Froghopper (Homoptera: Cercopoidea) in Baltic amber. Fig. 218. Planthopper (Homoptera: Fulgoroidea: Cixiidae) in Dominican amber.
Fig. 149. Mantis fly (Neuroptera: Mantispidae) in English (Baltic) amber.
Fig. 147. Scorpion fly (Mecoptera) in Baltic amber.
Fig. 69. Alder fly (Megaloptera) in Baltic amber.
Fig. 148. Lacewing (Neuroptera) in Baltic amber.
Fig. 146. Caddis-fly (Trichoptera) in Baltic amber.
Fig. 144. Moth (Lepidoptera) in Baltic amber.
Fig. 71. Crane-fly (Tipuloidea) in Baltic amber, which has broken off is legs in an effort to escape.
Fig. 201. Mosquito (Diptera: Culicidae) in East African copal. Very rare.
Fig. 154. Pair of mating midges (Nematocera: Chironomidae) in Baltic amber with two air bubbles.
Fig. 156. Moth fly (Nematocera: Psychodidae) in Baltic amber.
Fig. 155. Gall midge (Nematocera: Cecidomyiidae) in Baltic amber.
Fig. 152. Fungus gnat (Nematocera: Mycetophiloidea) in Baltic amber. Male—shown by external genitalia.
Fig. 153. Fungus gnat (Nematocera: Sciaridae) in Baltic amber. Female— shown by tapered abdomen.
Fig. 72. A pair of mating scavenger flies (Scatopsidae) caught in the act, in Dominican amber. Mating pair of biting midges (Nematocera: Ceratopogonidae) in Baltic amber.
Fig. 162. Hoverfly (Cyclorrapha: Syrphidae) in Baltic amber.
Fig. 85. Snipe fly (Rhagionidae) in Baltic amber with a pseudoscorpion hanging on to its legs. Fig. 158. Dance fly (Brachycera: Empididae) in Baltic amber.
Fig. 157. Snipe flies (Brachycera: Rhagionidae) in Baltic amber.
Fig. 203. Dance fly (Brachycera: Empididae) in Baltic amber. Long flat spines on legs.
Fig. 209. Long-leged flY (Brachycera: Dolichopodidae) in Baltic amber. Fig. 159. Long-legged fly (Brachycera: Dolichopodidae) in Baltic amber.
Fig. 161. Scuttle fly (Cyclorrapha: Phoridae) in Dominican amber.
Fig. 105. Black-fly (Nematocera: Simuliidae) in Baltic amber. Subgenus: Morops found today only in Southeast Asia. Fig. 91. Close-up of flightless scuttle fly (Cyclorrapha: Phoridae) in Dominican amber.
Fig. 158. Dance fly (Brachycera: Empidadae) in Baltic amber.
Fig. 160. Advanced fly (Cyclorrapha) in Baltic amber.
Fig. 170. Fairy fly (Parasitica: Mymarommatidae) in Dominican amber.
Fig. 166. Ant (Aculeata: Formicidae) in Baltic amber.
Fig. 172. Fairy fly (Parasitica: Mymarommatidae) in Baltic amber.
Fig. 165. Social wasp (Aculeata: Vespidae) in Dominican amber.
Fig. 167. Flying ant (Aculeata: Formicidae) in Baltic amber.
Fig. 211. Flying ant (Aculeata: Formicidae) carrying a scale insect that it uses to feed on plants, in Dominican amber.
Fig. 100. Bee (Aculeata: Apoidea) in Dominican amber, of the species Proplebeia dominicana.
Fig. 164. Digger wasp (Aculeata: Sphecidae) in Baltic amber.
Fig. 169. Braconid wasp (Parasitica: Braconidae) in Baltic amber.
Fig. 168. Ichneumon wasp (Parasitica: Ichneumonidae) in Baltic amber. Fig. 219. Braconid wasp (Parasitica: Braconidae) in Dominican amber.
Fig. 170. Fairy fly (Parasitica: Mymaridae) in Dominican amber.
Fig. 213. Bethylid wasp (Hymenoptera: Parasitica: Bethylidae) in Dominican amber.
Fig. 171. Chalcid wasp (Parasitica: Chalcidoidea) in Baltic amber.
Fig. 178. Large beetle (Coleoptera: Elateroidea) in Burmese amber.
Fig. 173. Click beetle (Coleoptera: Elateroidea) in Baltic amber.
Fig. 175. Flat-footed beetle (Coleoptera: Platypodidae) in Dominican amber.
Fig. 174. Rove beetle (Coleoptera: Staphylinidae) in Baltic amber.
Fig. 176. Rove beetle (Staphylinidae) in Dominican amber. Fig. 90. Close up of a Rove beetle (Coleoptera: Staphylinidae) in Dominican amber.
Fig. 204. Tumbling flower beetle (Coleoptera: Mordellidae) in Baltic amber.
Fig. 177. Weevil (Coleoptera: Curculionoidea) in Dominican amber.
Fig. 208. Cupedid beetle (Coleoptera: Cupedidae) in Baltic amber.
Arthropods found in Amber: (Common Classes, Orders, and Families) Crustacea (Crabs and relatives) Chelicerata (Spiders and relatives) Araneae (Spiders with fangs) Opiliones (Daddy long-legs) Acari (Mites and ticks) Scorpiones (Scorpions) Pseudoscorpionida (Pseudoscorpions) Amblypygi (Whip scorpions) Solpugida (Wind spiders) Schizomida (Blind arachnids) Myriapoda (Centipedes and Millipedes) Chilopoda (Centipedes) Diplopoda (Millipedes) Pauropoda (Small, 12 legged)
value of the finished item. For example;. Maggie Campbell Pedersen and Bear Williams investigate the infrared and optical characteristics of treated and natural ...
(A. Acra, personal communication). Tertiary amber contains the earliest known undisputed representatives of the orders Thysanura (30), Mantodea (13), ...
Jan 6, 2015 - western Cape of South Africa (4, 5). ... Author contributions: E.-M.S., L.J.S., H.B., and A.R.S. designed research; E.-M.S., L.J.S., F.S.,. A.F., H.B. ...
The issue, edited by: Krzysztof Jazdzewski (L6di, Poland), Adam Baldinger (Cambridge, MA, USA),. Charles Oliver Coleman (Berlin, Germany), Claude De ...
The cause of this coloration is traced back to ir- radiation that ... hand was nonexistent. Most likely ... Mines are privately held, but hardly ever by the miners.
Oct 15, 2015 - what shorter than palpomere 5. The entire surface of the apical maxillary palpomere is distinctly ringed. In the forewing all five bifurcations are ...
Jul 17, 2015 - It was during this Early Paleogene episode (i.e., Paleocene-. Eocene) ..... 4, 5â6. Holotype: Imago (Fig.4); AMNH B-JH-Iso4; middle Eocene (Lutetian), âBlaue Erdeâ .... The genus is similar to Proelectrotermes except that the rad
Sep 29, 2016 - spinous pads of the legs shorter than the two in between, the prox- imal-most one ..... Grimaldi, D.A., Engel, M.S., and Nascimbene, P.C. (2002).
Oct 22, 2014 - ities of embedding: (i) aquatic microorganisms and insects were trapped when ..... Motile organisms are more likely to become embedded deep.
Historical Outline. The naming of amber ... The white one is called king's amber and is ... moved at Kaliningrad during World War II, when we lost trace of it.
Jun 30, 2012 - heated it in sand and salt beds. Nowadays ... changes in the amber matrix, and test physical and chemical characteristics such as hardness or ...
This pdf file is licensed for distribution in the form of electronic reprints and by way of .... FIGURE 3âHydrotrupes prometheus n. sp., ZMUC00036776, female .... Here we note that H. chinensis ..... Quarterly Review of Biology, 47:365â411.
Apr 5, 1995 - layers of similar thickness of fine sand and clay, but lies atop a floor ofthick, ... description ofthe physical properties ofthe amber, its stratigraphic ...
Oct 23, 1997 - micidae, recently discovered in Turonian (92 Ma) ... crepencies with the cladograms of Baroni Urbani et al.(1992) are ... ily of insects-perhaps of all organisms-on earth. ..... Based on a single, incomplete compres- ..... sition of sp
Feb 23, 2012 - chemical and physical properties), as well as their paleontological significance. ..... dated layers of sand and clay (Grimaldi et al., 2000).
Sometimes even soft parts are preserved, such as flight muscles or ... mentioned or figured in the cited literature (31 adults and 2 larvae), thus ...... abdomen is 13.9 mm long and 0.8 mm wide (the fifth abdominal segment ... Ax2; and the relatively
The lightly sclerotised cuticle of chilopods, coupled with their predominantly litter and soil-dwelling habits, set constraints on their fossilisation potential. In spite ...
Apr 12, 2013 - Russia,. S. Urals ? Sharov 1948. Mein: Cretaceomachilis libanensis. Mes: ...... Sousa from the Sociedade Portuguesa de Entomologia, for ...
Jul 18, 2018 - an embryonic/neonate snake, including preserved integument, from ... a second amber specimen containing a large fragment of integument,.
Jun 24, 2016 - under a Creative Commons Attribution ... fore, little is known about the early evolution of this complicated behavior and its ... INTRODUCTION .... Similar to its extant relatives, the larva may also have used its jaws ..... âFalaise