taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
156F1878106E596E9CA9357904D0B710.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1304208	https://doi.org/10.3897/jhr.98.151036.figure1	Figure 1. Iconella melitaraevora, female holotype A habitus B head, frontal C wings D head, dorsal E metasoma, dorsal F mesosoma, dorsal.	Figure 1. Iconella melitaraevora, female holotype A habitus B head, frontal C wings D head, dorsal E metasoma, dorsal F mesosoma, dorsal.	2025-04-09	Morrison, Colin R.;Armstrong, Wyatt R.;Plowes, Robert M.;Gilbert, Lawrence E.;Fernández-Triana, José L.		Zenodo	biologists	Morrison, Colin R.;Armstrong, Wyatt R.;Plowes, Robert M.;Gilbert, Lawrence E.;Fernández-Triana, José L.			
156F1878106E596E9CA9357904D0B710.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1304209	https://doi.org/10.3897/jhr.98.151036.figure2	Figure 2. Maximum likelihood CO 1 tree of described Nearctic and Neotropical Iconella species. Apanteles opuntiarum (Microgastrinae) from a laboratory culture originally collected in Santa Fe Province, Argentina was the outgroup. Bootstrap node support for the generic split is bolded. The scale bar is the nucleotide substitution rate visualized by the branch lengths.	Figure 2. Maximum likelihood CO 1 tree of described Nearctic and Neotropical Iconella species. Apanteles opuntiarum (Microgastrinae) from a laboratory culture originally collected in Santa Fe Province, Argentina was the outgroup. Bootstrap node support for the generic split is bolded. The scale bar is the nucleotide substitution rate visualized by the branch lengths.	2025-04-09	Morrison, Colin R.;Armstrong, Wyatt R.;Plowes, Robert M.;Gilbert, Lawrence E.;Fernández-Triana, José L.		Zenodo	biologists	Morrison, Colin R.;Armstrong, Wyatt R.;Plowes, Robert M.;Gilbert, Lawrence E.;Fernández-Triana, José L.			
156F1878106E596E9CA9357904D0B710.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1304210	https://doi.org/10.3897/jhr.98.151036.figure3	Figure 3. Iconella melitaraevora larval and host habitat images A Piñon-Juniper vegetation characteristic of the site where I. melitaraevora was collected in mid-elevation montane woodlands of Santa Fe County, New Mexico B host plant, Opuntia phaeacantha (Cactaceae) of Melitara subumbrella (Pyralidae) caterpillars, the wasp’s larval host, exuded larval frass is visible outside the swollen shelter where the caterpillar develops C excavated hole that M. subumbrella larvae used to exude frass from the interior of the host plant, note that the hole is covered with silk to prevent intruders from entering D mature M. subumbrella larva inside a tunnel it has excavated within its host plant E parasitized, ultimate instar M. subumbrella larva, parasitoid larval emergence was imminent when this image was taken F gregarious I. melitaraevora larvae emerging from their host and spinning cocoons, see Suppl. material 1 for a video of this moment G silken puparium woven by M. subumbrella larva, within which I. melitaraevora larvae emerged from the host carcass to spin cocoons and pupate.	Figure 3. Iconella melitaraevora larval and host habitat images A Piñon-Juniper vegetation characteristic of the site where I. melitaraevora was collected in mid-elevation montane woodlands of Santa Fe County, New Mexico B host plant, Opuntia phaeacantha (Cactaceae) of Melitara subumbrella (Pyralidae) caterpillars, the wasp’s larval host, exuded larval frass is visible outside the swollen shelter where the caterpillar develops C excavated hole that M. subumbrella larvae used to exude frass from the interior of the host plant, note that the hole is covered with silk to prevent intruders from entering D mature M. subumbrella larva inside a tunnel it has excavated within its host plant E parasitized, ultimate instar M. subumbrella larva, parasitoid larval emergence was imminent when this image was taken F gregarious I. melitaraevora larvae emerging from their host and spinning cocoons, see Suppl. material 1 for a video of this moment G silken puparium woven by M. subumbrella larva, within which I. melitaraevora larvae emerged from the host carcass to spin cocoons and pupate.	2025-04-09	Morrison, Colin R.;Armstrong, Wyatt R.;Plowes, Robert M.;Gilbert, Lawrence E.;Fernández-Triana, José L.		Zenodo	biologists	Morrison, Colin R.;Armstrong, Wyatt R.;Plowes, Robert M.;Gilbert, Lawrence E.;Fernández-Triana, José L.			
