taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03E887D9FFE2FFE9FF68FC5E9745D6DB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7803159/files/figure.png	https://doi.org/10.5281/zenodo.7803159	FIG. 2.—Dorsal, ventral, and lateral views of the cranium of Hylomyscus kerbispeterhansi, new species (holotype FMNH 210017).	FIG. 2.—Dorsal, ventral, and lateral views of the cranium of Hylomyscus kerbispeterhansi, new species (holotype FMNH 210017).	2014-02-19	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.		Zenodo	biologists	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.			
03E887D9FFE2FFE9FF68FC5E9745D6DB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7803161/files/figure.png	https://doi.org/10.5281/zenodo.7803161	FIG. 3.—Dorsal, ventral, and lateral views of crania of Hylomyscus: A) H. anselli (FMNH 171346; occipitonasal length [ONL] = 27.3 mm), a male from Mbizi Mountains, Tanzania; B) H. kerbispeterhansi, new species (FMNH 210017 [holotype]; ONL = 26.7 mm), a female from Mau Escarpment, Kenya; and C) H. endorobae (FMNH 209996; ONL = 27.87), a female from Mau Escarpment, Kenya.	FIG. 3.—Dorsal, ventral, and lateral views of crania of Hylomyscus: A) H. anselli (FMNH 171346; occipitonasal length [ONL] = 27.3 mm), a male from Mbizi Mountains, Tanzania; B) H. kerbispeterhansi, new species (FMNH 210017 [holotype]; ONL = 26.7 mm), a female from Mau Escarpment, Kenya; and C) H. endorobae (FMNH 209996; ONL = 27.87), a female from Mau Escarpment, Kenya.	2014-02-19	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.		Zenodo	biologists	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.			
03E887D9FFE2FFE9FF68FC5E9745D6DB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7803165/files/figure.png	https://doi.org/10.5281/zenodo.7803165	FIG. 4.—Scatter plot of principal component analysis (PCA) performed on 14 log-transformed craniodental measurements. The filled squares represent specimens of Hylomyscus anselli from the Mbizi Mts., Tanzania; the unfilled circles represent specimens of H. kerbispeterhansi from western Kenya; and the 3 asterisks (*) represent specimens from Bishop’s (1979) type series of Praomys (Hylomyscus) denniae anselli from Zambia.	FIG. 4.—Scatter plot of principal component analysis (PCA) performed on 14 log-transformed craniodental measurements. The filled squares represent specimens of Hylomyscus anselli from the Mbizi Mts., Tanzania; the unfilled circles represent specimens of H. kerbispeterhansi from western Kenya; and the 3 asterisks (*) represent specimens from Bishop’s (1979) type series of Praomys (Hylomyscus) denniae anselli from Zambia.	2014-02-19	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.		Zenodo	biologists	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.			
03E887D9FFE2FFE9FF68FC5E9745D6DB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7803167/files/figure.png	https://doi.org/10.5281/zenodo.7803167	FIG. 5.—Scatter plot of canonical variates (CV) axes 1 and 2 depicting results of discriminant function analysis performed on 14 logtransformed craniodental measurements. Projection of individual specimen scores from 163 specimens assigned to 4 taxa is depicted according to the key in the plot. The 95% confidence limits for taxa are depicted by ellipses.	FIG. 5.—Scatter plot of canonical variates (CV) axes 1 and 2 depicting results of discriminant function analysis performed on 14 logtransformed craniodental measurements. Projection of individual specimen scores from 163 specimens assigned to 4 taxa is depicted according to the key in the plot. The 95% confidence limits for taxa are depicted by ellipses.	2014-02-19	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.		Zenodo	biologists	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.			
03E887D9FFE2FFE9FF68FC5E9745D6DB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7803169/files/figure.png	https://doi.org/10.5281/zenodo.7803169	FIG. 6.—Cluster analysis based on Mahalanobis distances between taxa (left) and corrected cytochrome-b (Cytb) net between-taxa genetic distances (right). Both dendrograms recover the same topology and similar branch lengths based on independent morphometric and genetic data sets.	FIG. 6.—Cluster analysis based on Mahalanobis distances between taxa (left) and corrected cytochrome-b (Cytb) net between-taxa genetic distances (right). Both dendrograms recover the same topology and similar branch lengths based on independent morphometric and genetic data sets.	2014-02-19	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.		Zenodo	biologists	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.			
03E887D9FFE2FFE9FF68FC5E9745D6DB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7803171/files/figure.png	https://doi.org/10.5281/zenodo.7803171	FIG. 7.—Species tree inferred in *BEAST using multilocus sequence data for 7 species of Hylomyscus from the H. alleni, H. anselli, and H. denniae species groups (Carleton et al. 2006). Numbers above branches represent Bayesian posterior probability values and filled circles on nodes indicate speciation probabilities ± 0.99 for Bayesian species delimitation analysis in Bayesian Phylogenetics and Phylogeography (BPP).	FIG. 7.—Species tree inferred in *BEAST using multilocus sequence data for 7 species of Hylomyscus from the H. alleni, H. anselli, and H. denniae species groups (Carleton et al. 2006). Numbers above branches represent Bayesian posterior probability values and filled circles on nodes indicate speciation probabilities ± 0.99 for Bayesian species delimitation analysis in Bayesian Phylogenetics and Phylogeography (BPP).	2014-02-19	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.		Zenodo	biologists	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.			
03E887D9FFE2FFE9FF68FC5E9745D6DB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7803173/files/figure.png	https://doi.org/10.5281/zenodo.7803173	FIG. 8.—Extended Bayesian skyline plot depicting changes in effective population size (Ne) over time before present based on mitochondrial DNA (cytochrome-b [Cytb]) and nuclear DNA intron (ABHD11-5, ACOX2, ACPT-4, GAD2-1, and JMJD) sequence data. The black center line indicates the median population size and the bounding gray lines indicate the 95% highest posterior density (HPD). Both taxa show recent population expansion, although expansion in Hylomyscus kerbispeterhansi commenced later than in H. endorobae. The present Ne of H. endorobae is inferred to be ~5 times larger than that of H. kerbispeterhansi.	FIG. 8.—Extended Bayesian skyline plot depicting changes in effective population size (Ne) over time before present based on mitochondrial DNA (cytochrome-b [Cytb]) and nuclear DNA intron (ABHD11-5, ACOX2, ACPT-4, GAD2-1, and JMJD) sequence data. The black center line indicates the median population size and the bounding gray lines indicate the 95% highest posterior density (HPD). Both taxa show recent population expansion, although expansion in Hylomyscus kerbispeterhansi commenced later than in H. endorobae. The present Ne of H. endorobae is inferred to be ~5 times larger than that of H. kerbispeterhansi.	2014-02-19	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.		Zenodo	biologists	Demos, Terrence C.;Agwanda, Bernard;Hickerson, Michael J.			
