Olive-backed Woodpecker Dinopium rafflesii occurs from southern Myanmar and peninsular Thailand south to Sumatra, with a separate subspecies on Borneo (del Hoyo & Collar 2014). It is one of 4–6 species (taxonomy-dependent) assigned to the genus Dinopium Rafinesque, 1814 (Dickinson & Remsen 2013, del Hoyo & Collar 2014, Fernando et al. 2016). However, in a comprehensive molecular review of the Picidae, sampling 203 of the 217 wellrecognised species across six loci, Shakya et al. (2017: 187) found that

The implications of this are that either (1) Gecinulus should be merged in Dinopium, (2) D. rafflesii should be reassigned to Gecinulus or (3) D. rafflesii should be transferred to another genus. The general trend in modern taxonomy is to split genera rather than lump them (2,161 genera in Dickinson 2003, increased to 2,340 genera in Dickinson & Remsen 2013, Dickinson & Christidis 2014). Given this, plus the fact that option 1 would obscure the distinctiveness of the two species in Gecinulus and option 2 would negate that of D. rafflesii, we here propose that D. rafflesii be moved to another genus. This is not, however, to pretend that anomalies might not result as a consequence: in the phylogenetic trees generated by Shakya et al. (2017) a number of pairs of congeners are indicated as being separated for longer than D. rafflesii has been from Gecinulus, including Eurasian Wryneck Jynx torquilla and Rufous-necked Wryneck J. ruficollis, Rufous Piculet Sasia abnormis and White-browed Piculet S. ochracea, Heart-spotted Woodpecker Hemicircus canente and Red-crested Woodpecker H. concretus, Maroon Woodpecker Blythipicus rubiginosus and Bay Woodpecker B. pyrrhotis, and Orange-backed Woodpecker Chrysocolaptes validus and all other Chrysocolaptes sampled; but genus limits in some of these cases may indeed merit review.

Unfortunately, the second species of Gecinulus, Blyth, 1845, G. viridis (Bamboo Woodpecker) was not sampled by Shakya et al. (2017), but a close relationship between these congeners has long been assumed, with conspecificity sometimes proposed (Short 1982, Dickinson 2003), in part doubtless because a narrow hybrid zone between them exists in northern Thailand and, presumably, northern Laos (Round et al. 2012). The risk that the absence of molecular data for G. viridis might complicate the scenario recovered by Shakya et al. (2017) therefore appears remote.

Similarities between D. rafflesii and both species of Gecinulus are the unspotted throat and otherwise concolorous underparts; D. rafflesii and G. viridis further share concolorous upperparts (both with olive rump) and blackish tail. Differences between D. rafflesii and both species of Gecinulus are the former's (i) bold Dinopium-like black-and-white vs. plain olive-yellow facial pattern; (ii) more extensive and crested red on crown in the male; (iii) black vs. yellowish-olive crown in the female; (iv) sparse whitish spots on the flanks and lower belly; (v) large blackish vs. stubby yellowish bill; and (vi) browner-olive underparts. Differences between D. rafflesii and other Dinopium species are its: (i) lack of white spotting or streaking on the black crown in the female; (ii) lack of yellow, flame-yellow or red on the dorsal area; (iii) continuous olive-green vs. either bright red or black rump; (iv) lack of markings on the pale throat; and (v) dull plain sooty brownish-olive vs. black-on-whitish underparts. Moreover, Stresemann (1921) indicated that the nostrils of rafflesii are covered by feathers, but those of other Dinopium species are not, and in Natural History Museum (Tring) material we find that this distinction is supported (albeit with some exceptions, presumably caused by abrasion).

All the above lends support to the proposition that the most appropriate course of action based on current evidence would be to remove rafflesii to its own genus. The synonymy in Peters (1948: 143) indicates the availability of several names, of which two, Chloropicoides, Malherbe, 1849, and Gauropicoides, Malherbe, 1861, are seen to have as their type species by monotypy Picus rafflesii. Clearly, the former would have priority, and during the first half of the 20th century it was used multiple times for this species, e.g., by Stresemann (1921), Baker (1927) and Chasen (1935). Baker (1927: 75), who had earlier used Gauropicoides (Baker 1919), following among others Hargitt (1890: 132) and Hesse (1912: 233), noted that the latter genus is antedated by Chloropicoides, and went on to define how Chloropicoides can be distinguished from Brachypternus (the genus invoked by Baker for Black-rumped Flameback Dinopium benghalense).

Nevertheless, this evidence of priority is considerably muddied because Malherbe published two different works in 1849. One was a brief note reporting the description (elsewhere) of some new species of Picidae, including a clarification of the taxon Picus rafflesii Vigors, 1830, which he assigned to Chloropicoides (Malherbe 1849a). The second, offering a new classification of the Picidae (Malherbe 1849b), is a longer paper which he evidently regarded as a direct foretaste of his monograph (both 1849 publications, and Strickland 1845: 197, indicate that that work was already well advanced). In his new classification, Malherbe again mentioned Chloropicoides, but this time considered it to form three parts, the first of which comprised multiple species and the others single species each, one of them rafflesii. Certainly by the time his monograph eventually appeared, Malherbe (1861: 53) had settled on the Himalayan Flameback Dinopium shorii (which he had mentioned in his first group in Malherbe 1849b: 346) to represent the type of his genus Chloropicoides.

It is clear that the author himself generally considered the new classification paper (Malherbe 1849b) to have primacy—perhaps he even expected it to appear first—and there is evidence that contemporaries (Strickland 1850²) and subsequent commentators (Hargitt 1890: 132, Sherborn 1925: 1246) also did so, and although of itself this confers no evidence of priority, it bears mention that Malherbe (1862: 102) in the synonymy of rafflesii listed the new classification after his Bull. Soc. Hist. Nat. Dept. Moselle note. Irrespective of any of this, there appears to be no unequivocal internal evidence that either paper was published first. Crucial, therefore, is Stresemann (1921: 89), who (i) noted that on p. 520 of the same volume in which Malherbe's new classification was published it was reported that the relevant part of the Bull. Soc. Hist. Nat. Dept. Moselle in which Malherbe (1849a) appeared had already been received at the Metz Academy, and (ii) offered testimony that volume 30 of Mém. Acad. Natl. Metz was published as a single part, meaning therefore that the new classification must have appeared later. This clearly establishes priority for Malherbe (1849a) and thus rafflesii as the type species of Chloropicoides, notwithstanding that Malherbe's intention was almost certainly not to confer this status upon the taxon.

Nevertheless, one of our referees (A. Elliott in litt. 2020) notes that Stresemann's (1921) assertion (ii, above) could conceivably be challenged. Consequently, should evidence come to light establishing the priority of Malherbe (1849b), then Malherbe's (1861) own subsequent designation of Dinopium shorii as the type species of Chloropicoides would render the latter genus unavailable for rafflesii alone, and instead necessitate the use of Gauropicoides Malherbe, 1861³, by those who wish to recognise the distinctiveness of rafflesii.

The frequency with which rafflesii has been afforded its own genus is notable, with Mesospilus Sundevall, 1866, also introduced to accommodate it. However, the treatment by Peters (1948: 143) and commentary by Goodwin (1968) served to stymie a separate generic assignment for rafflesii until the study by Shakya et al. (2017). As far as we can establish, while acknowledging that Stresemann's (1921) testimony might ideally be subject to independent confirmation, the earliest available generic name for rafflesii is Chloropicoides and, in the light of the genetic evidence (Shakya et al. 2017) and the morphological data provided above, we propose that Chloropicoides be resurrected to accommodate rafflesii henceforth.