BROAD-BILLED HUMMINGBIRD Cynanthus latirostris lawrencei (vs. C. l. magicus total score 8).

Scored 9 by del Hoyo & Collar (2014) based on colours of throat (‘glittering turquoise-green' vs. ‘sapphire-blue'), breast (‘greeny-bronze' vs. ‘turquoise-blue') and undertail-coverts (‘whitish-edged darkish-grey' vs. ‘pale grey-white'), and slightly shorter bill (most of these characters are visible in Figs. 2–4). However, the throat and breast characters, which del Hoyo & Collar (2014) scored separately, could be viewed as a single character (less blue on iridescence of throat and breast), and we could not clearly discern the difference in breast colour in IBUNAM specimens. Therefore we ignore the breast colour character (thereby ‘losing’ two points), but this enables a further colour character to be scored. Grant (1965a, based on 23 male and 22 female lawrencei vs. 41 male and 25 female magicus) mentioned additional colour differences, including darker grey underparts in females (score 1), and that 75% of his lawrencei samples of both sexes had darker green upperparts compared to 75% of his magicus samples (not scored). Grant (1965a) also mentioned an additional morphometric difference (slightly but significantly smaller grey tips to the rectrices, at least in females; not scored). According to Grant's (1965a) data, shorter bill length in lawrencei scores only 1, not 2 as in del Hoyo & Collar (2014), but wings and tail are longer (score 1).

We found that the undertail-coverts character does not distinguish 100% of one taxon from 100% of the other, as implied in the literature (Ridgway 1911, Grant 1965a, del Hoyo & Collar 2014). Of 11 male specimens of lawrencei at IBUNAM in which it is possible to see the undertail-coverts, typical colours are present in nine specimens but P019534 has a two-toned pattern in which the anterior feathers are typical of lawrencei but the largest, posterior feathers are predominantly white with very pale grey central portions, very similar to magicus P001630 from Sinaloa (Fig. 5). Also, the usually whitish undertail-coverts of magicus reach their greyest extreme in P001631 and P020047 (Fig. 6), albeit a pearly grey rather than the brownish grey of lawrencei. We do not believe that any of these specimens are hybrids because no other character suggests this, and their geographic location is too far removed from the Tres Marías (e.g., P020047 is from too far north and inland for lawrencei to be a plausible parent).

TABLE 2

Mean (in mm), standard error, n (sample size), Cohen's d and Tobias et al. (2010) scores for the taxa evaluated in this paper (the first three taken from Grant 1965a). ‘Island' refers to the taxon from the Tres Marías Islands and ‘Mainland' to the taxon from the adjacent mainland. The symbol ‘—’ refers to data not provided by Grant (1965a) due to small sample size or that cannot be calculated due to incomplete information.

Figure 2.

Male Broad-billed Hummingbird Cynanthus latirostris lawrencei, Isla María Cleofas, May 2016 (Javier Cruz Nieto)

Occasional Cynanthus wander between the Tres Marías and the mainland, and apparently sometimes interbreed. A. J. Grayson (in Lawrence 1872: 29) reported seeing one at sea ‘30 miles north' of the Tres Marías Islands in May 1867, which visited his boat and flew from there toward the islands. Nelson (1899: 46) saw a male latirostris fly past his boat in a straight line toward the islands ‘about midway' between the Tres Marías and San Blas, Nayarit. An adult male latirostris or lawrencei was observed ‘1 mile east’ of Isla María Magdalena by Grant (1965a: 51) on 25 April 1963 flying towards the latter island; and two male lawrencei were collected on the mainland at Sauta, Nayarit, by C. Lamb (MLZ 28073 on 5 May 1940, and MLZ 41912 on 23 April 1946, with two male magicus collected there around the same date as the 1940 specimen; J. Maley pers. comm.). MLZ 28073 has the only remaining undertail-covert feather typical of lawrencii while, contra Grant (1965a), MLZ 41912 has the anterior feathers grey-brown and the posterior undertail-coverts very pale whitish grey (like the IBUNAM material in Fig. 5; MLZ specimen photos, courtesy of J. Maley).

Figure 3.

Throat colours of Broad-billed Hummingbird Cynanthus latirostris specimens in the Instituto de Biología, Universidad Nacional Autónoma de México collection, on left: two C. l. magicus, right: two C. l. lawrencei; the apparently larger size and bills of the lawrencei specimens are an artefact of the photograph (Héctor Gómez de Silva)

Fig. 4.

Typical undertail-coverts colour of male Broad-billed Hummingbird Cynanthus latirostris magicus (two specimens at left) and C. l. lawrencei (two specimens at right), from specimens in the Instituto de Biología, Universidad Nacional Autónoma de México collection (Héctor Gómez de Silva)

Figure 5.

Two specimens of male Broad-billed Hummingbirds Cynanthus latirostris with similarly grey anterior undertail-coverts and white or whitish posterior undertail-coverts; above C. l. magicus, below, C. l. lawrencei (Héctor Gómez de Silva)

Figure 6.

Mainland specimens of male Broad-billed Hummingbird Cynanthus latirostris magicus with grey undertail-coverts (usually white or whitish) (Héctor Gómez de Silva)

Figure 7.

Presumed hybrid Broad-billed Hummingbird Cynanthus lawrencei × magicus specimen in the Instituto de Biología, Universidad Nacional Autónoma de México collection; note magicus-like blue throat and lawrencei-like white-edged grey undertail-coverts (Héctor Gómez de Silva)

Figure 8.

Presumed hybrid Broad-billed Hummingbird Cynanthus lawrencei × magicus specimen, Isla María Cleofas, April 2016 (Héctor Gómez de Silva)

Among mainland specimens at IBUNAM, one male (P001633 from just north-west of Las Varas, Nayarit, along the Zacualpan road) appears to be a hybrid. It has a lawrencei-like shorter bill and undertail-coverts colour, but a magicus-like blue throat (Fig. 7). This is consistent with the observation that hybrids between hummingbirds of the ‘emerald’ group (sensu McGuire et al. 2014) do not show mixed colours but rather a combination of characteristics of the parental species (Graves 2003a,b).

A male Broad-billed Hummingbird we photographed on Isla María Cleofas on 26 April 2016 appears to combine the plumage characters of magicus and lawrencei, namely the deep blue throat and blue-green breast / belly of the former with the undertail-coverts of the latter (Fig. 8), thus apparently representing another hybrid.

Del Hoyo & Collar (2014) used the English name Tres Marías Hummingbird, but we prefer to avoid potential confusion given that there are two species of hummingbird on the islands; consequently, we prefer the name Lawrence's Hummingbird.

CINNAMON HUMMINGBIRD Amazilia rutila graysoni (vs. A. r. rutila total score 7)

Scored 4 by del Hoyo & Collar (2014) based on larger size in all external measurements (to which they assign a score of 3) and slightly ‘darker and duskier' plumage (which they score 1). Regarding colour differences, Grant (1965a, based on 27 male and 18 female graysoni vs. 46 male and 14 female rutila) stated that the underparts are uniformly dark cinnamon vs. paler cinnamon, particularly on the chin and throat. The belly of some mainland rutila at IBUNAM is as dark as the underparts of graysoni, but the chin and throat, and often asymmetrical patches on the breast, are always paler (Fig. 9). Grant (1965a) also mentioned that the upperparts are ‘dark green or even red-bronze' vs. ‘paler green, and in those which have a bronze colour it is always yellow-green, never red’, and that the ‘tips’ (sic, actually, subterminal portions) of most, particularly the outer, rectrices are dark greenish bronze to dull violet in 90% of graysoni vs. paler, bright greenish bronze in 90% of rutila specimens (score at least 1). The underpart colours in these taxa are based on the intensity of cinnamon pigmentation whereas the upperpart colours (as in iridescent colours of hummingbirds generally) are based on a combination of melanin and feather nanostructure; therefore we score 1 for underparts colour and 1 for upperparts colour.

Figure 9.

Two specimens of Cinnamon Hummingbird Amazilia rutila graysoni (below) compared with two specimens of A. r. rutila (above); note the considerable difference in size. The second specimen from the top is the darkest-throated A. r. rutila at Instituto de Biología, Universidad Nacional Autónoma de México; the right side of its throat is paler than the left, and thus more like the typical colour of the subspecies (Héctor Gómez de Silva)

Grant's (1965a) measurements reveal that the bill in graysoni is both relatively shorter (effect size for bill length 2 vs. effect size for most external measurements 3 [score 1]) and, especially in males, relatively narrower (effect size for bill width 1 but for bill length 2 [not scored]).

The notably larger overall size of insular graysoni is paralleled by Rufous-tailed Hummingbird Amazilia tzacatl handleyi of Isla Escudo de Veraguas, Panama (Wetmore 1959, Miller et al. 2011) but in the latter case, there is reportedly a narrow ‘zone of morphometric intergradation’ (Weller 1999), although the data on which the statement was based have not been published to date. There is no zone of intergradation between graysoni and mainland rutila.

Of the 12 specimens of graysoni at IBUNAM, the smallest (P019069 from Isla María Madre) has atypical upperparts, with much-reduced iridescence on the wing-coverts and back compared to either graysoni or rutila. We consider that this specimen could be a hybrid graysoni × rutila, the colour of its upperparts being heterotic (a trait of a hybrid outside the range of variation for that trait in either parental species; McCarthy 2006: 17).

RED-BREASTED CHAT Granatellus venustus francescae (vs. G. v. venustus total score 8)

Scored 7 by del Hoyo & Collar (2016) based on the lack of black breast-band of francescae, presence of a white hindcollar, grey of crown extending over nape, tail much longer, and a few additional characters that they did not score. Grant (1965a, based on 29 male and 18 female francescae vs. 24 male and 14 female venustus) found that the lack of breast-band differentiated 79% of his sample of francescae from 94% of venustus (Grant 1965a also observed in both taxa that, rarely, a breast-band is present but masked by overlying white feathers). Therefore, this character does not differentiate the taxa completely, and we did not score it, although we believe that it is an important character.

Del Hoyo and Collar (2016) included scores for ‘white hindcollar formed by continuing white postocular stripe (at least 1), grey of crown extending over nape (1)'. We think they assigned two scores for what is essentially a single character (Fig. 10), to which we apply a score of 2.

Whereas del Hoyo & Collar (2016) mention, but did not score, ‘pink of underparts generally slightly paler and less extensive', Grant (1965a) stated that ‘the majority of both mainland and island samples of adult males had approximately the same amount of red ventrally. A few island specimens were observed to have less, and a few mainland specimens more, than this.’ It is unclear whether this character should be scored. However, we would score the colour of the underparts of immature males; Grant (1965a), based on a sample of perhaps n = 8 vs. n = 6, reported that immature males differ in having almost no red on the underparts in francescae (and in his sample no trace of a black breast-band) vs. much red on the underparts and a complete breast-band (score 2). Based on Grant's (1965a) data the relative amount of white on the outermost rectrix (measured as the length of the white patch on r6 / length of r6) merits a score of 2, but we conservatively score it 1. Whereas del Hoyo & Collar (2016) afforded a score of 2 for ‘tail much longer’, measurements in Grant (1965a) indicate that the score of 2 applies equally to wing, tarsus and tail lengths, but bill length is shorter (score 1).

Figure 10.

Comparison of the nape and presence / absence of the white hindcollar in male Red-breasted Chat Granatellus venustus: above, Instituto de Biología, Universidad Nacional Autónoma de México specimen of G. v. venustus (Héctor Gómez de Silva); below, G. v. francescae, Isla María Cleofas, May 2016 (Mónica G. Pérez Villafaña)

MEXICAN PARROTLET Forpus cyanopygius insularis (vs. F. c. cyanopygius / pallidus total score 7)

Coloration.—Males have breast, belly, neck-sides and postocular region pale malachite-green, somewhat glaucous, contrasting strongly with the yellowish-green or apple-green cheeks, throat, forehead and forecrown vs. apple-green underparts in slight contrast (if any) with the face colour (Figs. 11–12; Ridgway 1911, Grant 1965a, based on 21 male and 15 female insularis vs. 20 male and 31 female cyanopygius,  www.inaturalist.org/observations/5258308,  www.inaturalist.org/observations/5258315 [score 2]). This coloration is similar to male Pacific Parrotlet F. coelestis of western Ecuador and north-west Peru (e.g.,  www.hbw.com/ibc/photo/pacific-parrotlet-forpus-coelestis/close-pacific-parrotlet and  www.hbw.com/ibc/ photo/pacific-parrotlet-forpus-coelestis/male; the illustration of the latter species in del Hoyo & Collar 2014 is inaccurate). Rump, lower back and greater coverts of males bright cerulean blue vs. bright turquoise-blue (Ridgway 1911, Grant 1965a [score 1]). Secondaries and proximal primaries darker and duller blue, edged cerulean blue vs. greenish blue (nearly cerulean blue) edged distally with pale yellowish green (Ridgway 1911 [score 2]). A. J. Grayson (in Lawrence 1872), Lawrence (1872), Ridgway (1888, 1911) and Grant (1965a) described the upperparts of both sexes of insularis as darker and more glaucous green (not scored, we are unable to discern this difference in the three insularis vs. six cyanopygius / pallidus specimens at IBUNAM). Grant (1965a) added that the flanks and undertail-coverts are the same colour as the breast / belly in all insularis males in his sample, but the detailed description of insularis by Ridgway (1911), the two IBUNAM specimens of adult male insularis, and our field photographs (e.g., Fig. 11) contradict that.

Figure 11.

Pair of Mexican Parrotlets Forpus cyanopygius insularis copulating, Isla María Cleofas, May 2016; note the male's pale malachite-green underparts, neck-sides and postocular region contrasting with the yellower green cheeks, throat, forehead and forecrown, and that the male's undertail-coverts are not concolorous with the breast and belly (contra Grant 1965a) (Javier Cruz Nieto)

Figure 12.

Instituto de Biología, Universidad Nacional Autónoma de México specimens of Mexican Parrotlet Forpus cyanopygius from Nayarit; the two specimens on the right are adult male insularis, their malachite-green breast and belly contrasts strongly with the throat, unlike in cyanopygius specimens (Héctor Gómez de Silva)

Morphometrics.—Larger in all external measurements (score 2).

Additional information.—Smith et al.'s (2012) molecular study found that insularis has diverged more from a common ancestor than cyanopygius / pallidus, consistent with a faster rate of divergence in small, isolated populations (Woolfit 2009), and the Bayesian modelling programme BP&B assigned the probability of insularis being a separate species as higher than 95%.

GOLDEN VIREO Vireo hypochryseus sordidus (vs. V. h. hypochryseus total score 5–6)

Coloration.—Throat, breast, flanks and upperparts duller and greener in sordidus, especially in fresh plumage and when specimens collected in the same season are compared (score 1 or possibly 2, Grant 1965a, based on 30 male and 23 female sordidus vs. 44 male and 20 female hypochryseus). Grant (1965a) reported that Nelson's (1898) claimed difference in bill colour is incorrect.

Morphometrics.—Larger in all external measurements, especially tail length of both sexes and wing length of females (score 2), with a significantly shorter coracoid both absolutely and relatively (effect size almost reaches the threshold for score of 3, but we assign a score of 2) and a relatively shorter femur (not significantly different between taxa, whereas all external measurements are larger [not scored]). Arbeláez-Cortés et al. (2014) analysed the morphometrics of ten sordidus and 37 specimens from the rest of the range, and confirmed the larger size of sordidus.

Additional information.—Arbeláez-Cortés et al. (2014) and Ortiz-Ramírez et al. (2018) reported reciprocal monophyly but shallow genetic divergence between these taxa.

HAPPY WREN Pheugopedius felix lawrencii (vs. P. f. pallidus total score 8)

Coloration.—White mid-breast and mid-belly vs. rufous breast and belly in pallidus (Fig. 13; Grant 1965a, based on 43 male and 30 female lawrencii vs. 37 male and 18 female pallidus [not scored]). Among 18 lawrencii at IBUNAM, a few are washed warm on the breast, but are still usually paler than the palest pallidus. Even if there is warm colour across part of the breast, there is much white on the mid-breast and mid-belly. Examination of the ‘warmest’ specimens of lawrencii (P016585) revealed a diagnostic character not previously mentioned in the literature (e.g. Nelson 1898, Ridgway 1904, Grant 1965a): the colour of the underwing-coverts. In lawrencii, these are white or whitish, contrasting with the warm breast-sides, whereas pallidus has cinnamon / rufous underwing-coverts concolorous with the breast (score 3) (Fig. 14). Ear-coverts have significantly more white than black feathers vs. black and white feathers approximately equally prominent (score 2) (Fig. 13). One or other of these differences between lawrencii and pallidus is of somewhat similar magnitude to those between certain subspecies of, e.g., Coraya Pheugopedius coraya, Rufous-and-white Thryophilus rufalbus, Buff-breasted Cantorchilus leucotis, Carolina Thryothorus ludovicianus and White-browed Wrens T. albinucha, but in those cases there are zones of intergradation and smooth clines, whereas between lawrencii and pallidus the differences are abrupt and occur in both characters simultaneously. Grant (1965a) noted that in both plumage features, juveniles from the mainland approach those of Tres Marías birds.

Figure 13.

Left: typical underparts colour and cheek pattern in Happy Wren Pheugopedius felix pallidus, Laguna El Chumbeño, Francisco Villa, Nayarit, Mexico, May 2016 (Amy McAndrews); right: P. f. lawrencii, Isla María Cleofas, April 2016 (Mónica G. Pérez Villafaña)

Figure 14.

Cinnamon underwing-coverts of Happy Wren Pheugopedius felix pallidus (above) compared to the contrasting white underwing-coverts of the warmest-breasted P. f. lawrencii specimen in the Instituto de Biología, Universidad Nacional Autónoma de México collection (right) (Héctor Gómez de Silva)

Morphometrics.—Longer wing, tail and, especially in females, bill (score 2) but tarsus relatively shorter (not significantly different in female and only slightly bigger in male [score 1]).

BLUE MOCKINGBIRD Melanotis caerulescens longirostris (vs. M. c. caerulescens total score 4)

Coloration.—Based on 52 male and 24 female longirostris vs. 29 male and 32 female caerulescens, Grant (1965a) found that ‘less than half' of longirostris were paler in the throat and crown feathers than ‘most’ of his caerulescens sample but the palest specimens of each were indistinguishable. Therefore there is large overlap (no score).

Morphometrics.—Slightly larger but has proportionately much longer bill in both sexes (score 2) whereas the tail is shorter, especially in males (score 2). Additionally, Grant (1965a) found that coracoid length may be shorter in island birds but did not provide sufficient information to calculate effect size because he considered his sample to be inadequate (three male and six female longirostris vs. five male and two female caerulescens). However, the measurement ranges have slight to no overlap, which suggest the difference is not minor (not scored).

STREAK-BACKED ORIOLE Icterus pustulatus graysonii (vs. I. p. microstictus and I. p. yaegeri total score 7).

Coloration.—Very few short and narrow streaks on back, usually in scapular region vs. more prominent and numerous streaks throughout back (Fig. 15; Grant 1965a, based on 39 adult male and 13 adult female graysonii vs. 69 adult male and 29 adult female microstictus / yaegeri [score 2]). Median coverts ‘pale yellow to yellowish-white' vs. ‘usually (orangey) yellow’ in yaegeri, the geographically closest mainland taxon, and white in microstictus, which occurs further inland than yaegeri (Phillips 1995 [score 1]). Grant (1965a) mentioned but did not quantify a tendency to differ in yellow vs. orange plumage. Generally, graysonii is less orange overall (consistent with the median coverts character, above, and with Ridgway 1902, Jaramillo & Burke 1999) and we support this based on our field work, although one adult graysonii among the dozens seen was intensely orange (Fig. 16).

Morphometrics.—Larger in external measurements (score 2), but with a significantly shorter coracoid both absolutely and relatively (score 2) and a relatively shorter femur (not significantly different whereas all external measurements are significantly different [not scored]). The bill is also differently shaped (‘longer in relation to width', Grant 1965a [not scored]).

Evidence of hybridisation.—Phillips (1995) collected a mainland specimen that he presumed to be a rare variant of yaegeri and had ‘plain yellowish interscapulars, with hardly perceptible black streaking (on the back). But the middle wing-coverts are richer, and bill shorter, than graysonii'. This specimen is now in the IBUNAM collection (P022269). Its precise locality, according to the label, is ‘1¾ km N of Singaita’, whereon it is also mentioned ‘Apparently alone in brush, near normal-backed pair'. The bird not only resembles graysonii in its back pattern but also in size (Fig. 15). Therefore it combines phenotypic characters and is almost surely a hybrid. We found a second mainland specimen (P015891 from Santiago Ixcuintla) that resembles graysonii in its fewer and narrower back streaks, but streaks are present even on the central back (Fig. 15). In overall length this specimen is comparable to other mainland specimens, and we believe it is also a hybrid.

Figure 15.

Back pattern, size and intensity of orange in Streak-backed Oriole Icterus pustulatus specimens from Nayarit, from left to right: two typical microstictus / yaegeri, two presumed hybrids (with Phillips' specimen at right) and a typical graysoni; note the similar overall size of graysoni and Phillips' specimen, which is, however, more orange overall (especially the head), while the other presumed hybrid (which appears almost as long due to specimen preparation) has back streaks intermediate between graysoni and typical mainland Nayarit orioles (Héctor Gómez de Silva)

Figure 16.

An intensely orange individual of Streak-backed Oriole Icterus pustulatus graysoni, Isla María Cleofas, March 2016 (Javier Cruz Nieto)

Additional information.—Cortés-Rodríguez et al. (2008) and Ortiz-Ramírez et al. (2018) found reciprocal monophyly but shallow genetic divergence between graysonii and mainland specimens. Shallow genetic divergence is also seen in other sister species of orioles even when they possess distinctly different plumage features (e.g. Kondo et al. 2004).

WHITE-TIPPED DOVE Leptotila verreauxi capitalis (vs. L. v. angelica)

Coloration.—Breast colour ‘paler and less red' in all specimens (Grant 1965a, 25 male and 21 female capitalis vs. 32 male and 12 female angelica), although the single darkest capitalis was almost indistinguishable from the single palest angelica. Also, 50% of island specimens had more extensive white throats than in all mainland birds, 75% of island birds had fewer and paler brown feathers on the thighs and flanks than 100% of mainland birds, and in c.75% of island birds the vinous breast colour extended less far onto the belly than approximately 75% of mainland birds; ‘hence island birds appear to have a larger, white abdomen’ (Grant 1965a). The face is whiter due to the ear-coverts being white or whitish vs. usually pale pinkish grey, and because the white forehead reaches further posteriorly and contrasts sharply with the hindcrown / nape / postocular area (Fig. 17; Nelson 1898). The whiter face recalls Grenada Dove L. wellsi and both that and the more extensive white underparts resemble Caribbean Dove L. jamaicensis. However, unlike those species, the ear-coverts and forehead / forecrown contrast with a pink rather than blue-grey hindcrown / nape / postocular area. Half of Grant's (1965a) capitalis sample was darker dorsally than 100% of his angelica sample, consistent with Ridgway's (1916) diagnosis and Fig. 17.

Figure 17.

Above: White-tipped Dove Leptotila verreauxi angelica, Cruz de Huanacaxtle, Nayarit, Mexico, April 2019 (Marie O'Neill), below: L. v. capitalis, Isla María Cleofas, May 2016; note the contrasting white forecrown and cheeks, extensively whitish underparts, and darker brown back, wings and tail (Mónica G. Pérez Villafaña)

Morphometrics.—Wing, tarsus and bill longer (Grant 1965a; largest effect size is for bill length of females, score 2) whereas the tail of females is shorter, and in both sexes the white on the tail tip is slightly shorter (score 1). The presence vs. absence of sexual dimorphism in tail length is a further difference between capitalis and angelica.

Reasons for uncertainty.—The whiter underparts and face of capitalis resemble L. verreauxi decolor, L. v. decipiens and some L. v. verreauxi (e.g. hbw.com/ibc/1016351 and hbw.com/ ibc/996812 from Costa Rica, hbw.com/ibc/980837 from Colombia and hbw.com/ibc/1086049, hbw.com/ibc/1002421 but not darker hbw.com/ibc/1002417 from the Lesser Antilles). Occasional White-tipped Doves from scattered localities in mainland Mexico resemble capitalis (e.g.  https://macaulaylibrary.org/asset/55312471,  https://macaulaylibrary.org/asset/57930541,  https://macaulaylibrary.org/asset/57744481, and  https://macaulaylibrary.org/asset/39082171) at least in some features (e.g.,  https://macaulaylibrary.org/asset/25545561 with whitish ear-coverts but forehead / forecrown showing little contrast; or  https://macaulaylibrary.org/asset/43367021 with forecrown less extensive and pinker breast, or  https://macaulaylibrary.org/asset/32166601 with very whitish flanks but strongly pinkish breast, malar region and ear-coverts). We hypothesise that the mutation(s) responsible for a whitish face and underparts contrasting with the mid-crown / nape / postocular area have arisen independently several times in Leptotila, becoming fixed in capitalis, decolor, decipiens, Caribbean and Grenada Doves, but not in L. v. verreauxi or other races, similar to other known cases of ‘parallel speciation’ (e.g. Cooper & Uy 2017 and references therein). Clearly more research is needed to understand colour variation in L. verreauxi and relatives.

RUFOUS-BACKED ROBIN Turdus rufopalliatus graysoni (vs. T. r. rufopalliatus)

Coloration.—Underwing-coverts tawny-ochraceous contrasting with dull cinnamon sides and flanks vs. underwing-coverts concolorous or nearly so with the breast, sides and flanks (Ridgway 1907). Grey breast-band vs. grey only in the streaked feathers at the lower edge of the throat; in extreme cases this causes grey, rather than rufous, to be the dominant colour of the underparts (Grant 1965a, based on 24 male and 42 female graysoni vs. 32 male and 22 female rufopalliatus; Howell & Webb 1995 Plate 51.3b, our Fig. 18). However, a grey breast-band sometimes shows up in mainland rufopalliatus even well away from the Tres Marías (e.g., see Fig. 19) and while some graysoni have the breast-band ‘faintly... tinged with dull salmon-color’, in mainland rufopalliatus most of the breast-band is ‘salmon color to almost cinnamon-rufous’ (Phillips 1991). Assuming that all individuals we saw and photographed in the Tres Marías were graysoni, our photographs confirm the blurred distinction (e.g., Fig. 20).

‘Back grayish, usually more or less tinged with brownish but hardly, if at all, contrasted to nape' vs. ‘scapulars, and usually back, strongly washed with cinnamon-rufous to russet..., in strong contrast to the grayer crown and nape (if not badly worn and faded)' (Phillips 1991). Howell & Webb (1995) described the back of graysoni as ‘greyish-rufous to olive-brown'. Our photographs from the Tres Marías show a range, from brown close to the upperparts of White-throated Thrush T. assimilis and showing little contrast with the nape and crown, to more rufous contrasting with the nape and crown (e.g., Figs. 18, 20 and 22). Upperwing-coverts ‘dull cinnamon or duller' vs. ‘salmon color to almost cinnamon-rufous' and sides and flanks dull orange-brown vs. rufous (Phillips 1991), which seem like subtle distinctions. All or most individuals we photographed on the Tres Marías had sides and flanks similar to some mainland rufopalliatus (e.g., Fig. 21,  http://2.bp.blogspot.com/-G0D2EpXGCkI/VHzA0MTHSjI/AAAAAAAACSQ/sMP9Yby2Yic/s1600/_DSC0103.JPG). Grant (1965a) mentioned that graysoni ‘show a tendency to possess paler and narrower chin and throat streaks than mainland birds, easily recognizable only when the extreme forms of the two samples are compared' (consistent with, e.g., Figs. 18 and 20). Phillips (1991) mentioned ‘feet apparently darker’ in graysoni but did not evidence this, and it is not supported by our field observations. In conclusion, individuals of graysoni representing theextremes of plumage (e.g., with narrowly striped throats, predominantly grey underparts and / or brown backs) are easily identified, but there appears to be sufficient variance and overlap that colour differences cannot be adequately scored. The literature suggests that the main differences are duller plumage and no sexual dimorphism vs. much brighter, richer plumaged males (e.g., Grant 1965a, Phillips 1991, Howell & Webb 1995). Individuals of unknown sex and / or in faded plumage would not be identifiable.

Figure 18.

Typical Rufous-backed Robin Turdus rufopalliatus graysoni with broad grey breast-band concolorous with head and nape, pale salmon flanks, brown back and wing-coverts with very little back / nape contrast, and rather narrow throat streaks, Isla María Cleofas, May 2016 (Héctor Gómez de Silva)

Figure 19.

Mainland Rufous-backed Robin Turdus rufopalliatus far from the Tres Marías, with an anomalous grey breast-band resembling T. r. graysoni and note the prominent throat streaks and warm-coloured back, wing-coverts and flanks, Cuernavaca, Morelos, Mexico, June 2017 (Juan Manuel Ramos Merino)

Figure 20.

Presumed Rufous-backed Robin Turdus rufopalliatus graysoniwith mainly narrow throat streaks, a strong salmon wash on the breast, and wing-coverts and back colours close to those of non-graysoni T. rufopalliatus, Isla María Cleofas, November 2015 (Javier Cruz Nieto)

Figure 21.

Mainland Rufous-backed Robin Turdus rufopalliatus far from the range of T. r. graysoni with a salmon wash on the breast resembling some graysoni, Parque María Enriqueta, Mexico City, June 2017 (Héctor Gómez de Silva & Mónica G. Pérez Villafaña).

Figure 22.

Rufous-backed Robin Turdus rufopalliatus graysoni with brown back and wing-coverts resembling the upperparts colours of White-throated Thrush T. assimilis, Isla María Cleofas, May 2016 (Héctor Gómez de Silva)

Morphometrics.—Larger in all external measurements, especially tarsus length and bill length (score 2). Montaño-Rendón et al. (2015), based on 268 adult specimens from throughout the range of T. rufopalliatus (sensu lato), confirmed the existence of marked morphometric differences.

Additional information.—Montaño-Rendón et al. (2015) and Ortiz-Ramírez et al. (2018) found reciprocal monophyly and deep genetic divergence between graysoni and rufopalliatus.

Reasons for uncertainty.—Apparently, graysoni occurs sympatrically with rufopalliatus in coastal Nayarit (Grant 1965a, Phillips 1981, Howell & Webb 1995), with specimens of graysoni from Playa Novillero (west of Acaponeta), Santiago Ixcuintla, Sauta, San Blas, Chacala and Las Varas (most from February–April, but singles from 12 May and, especially, 20 June suggest residency and opportunities for interbreeding; Phillips 1981: 306; Table 2). The absence of clear distinctions in plumage between some graysoni and other races (see above) makes it particularly difficult to identify potential hybrids based on plumage, and there is slight overlap in morphometrics, especially bill length of females (Grant 1965a). Montaño-Rendón et al. (2015) and Ortiz-Ramírez et al. (2018) apparently did not include DNA of graysoni from the mainland, nor indeed of any rufopalliatus from the Nayarit coastal plain, where hybrids, if any, would be expected (all of their Nayarit rufopalliatus were from a single locality in the foothills). Because the extent of hybridisation, if any, is presently unknown, we recommend further studies before concluding whether graysoni represents a species.

TROPICAL PARULA Setophaga pitiayumi insularis (vs. S. p. pulchra)

Coloration.—Reddish-tinged vs. pale buff flanks (score at least 1), much less white on outer rectrix (score 1), no or scattered black feathers at base of culmen vs. entirely black ‘culmen bridge’ feathers (score 2). Additionally, only the outer pair or two of tail feathers have white in 100% of insularis (both sexes) vs. three outer tail feathers in 82% of male and 73% of female pulchra (not scored) (from Grant 1965a, based on 42 male and 20 female insularis from the Tres Marías, and 11 male and eight female insularis from the mainland vs. 23 male and 12 female pulchra).

Morphometrics.—Larger in all external measurements, especially the longer tarsus in males and longer tail in females (both score 3, although this seems suspiciously high because these differences are not immediately evident to the eye) but bill in females shorter (score 1).

Reasons for uncertainty.—Race insularis also occurs in mangroves in mainland Nayarit (Grant 1965a), and there is a specimen from Labrados, Sinaloa (McLellan 1927) and records from Todos Santos and El Oro, Baja California Sur (Iliff et al. 2008). Hybrid insularis × pulchra have been documented at Peñita de Jaltemba (Grant 1965a, two specimens that combine the flanks colour of insularis with the wing length of pulchra and are intermediate in tail and / or tarsus length) and San Blas (Iliff et al. 2008, four specimens with intermediate measurements). Also, Grant (1965a: 52) noted that his sample of mainland insularis somewhat approached pulchra in frequency of different tail patterns, and possibly also in some mensural characters, suggesting introgression. Hybridisation may be extensive where they are parapatric. Furthermore, it is also unclear if phenotypic characters differentiating insularis may partially bridge the gap between S. p. pulchra and race graysoni from Socorro Island. Tail length of insularis is much closer to graysoni than pulchra (Ridgway 1902; under Socorro Parula, del Hoyo & Collar 2016 cite mean tail lengths for male insularis and pulchra that are too short, cf. Ridgway 1902).

Figure 23.

Tropical Parula Setophaga pitiayumi insularis, Isla María Cleofas, May 2016; note the reddish-tinged flanks and lack of black feathers above the base of bill (Mónica G. Pérez Villafaña)

In plumage, adult graysoni generally resembles juveniles of other races of S. pitiayumi. However, there may be a stepped cline in the percentage of adults with juvenile-like plumage; insularis is intermediate in proportions and especially the extent of black in the lores and orbital area (Grant 1965a: 38). Also, while black is usually thought to be completely absent in the face of graysoni, Baptista & Martínez-Gómez (2002: 38) found that a small percentage of individuals do show some black. There may also be a cline in the extent of white in the rectrices between pulchra, insularis and graysoni (Regelski & Moldenhauer 2012).

All of the above indicates that graysoni is perhaps not as phenotypically distinct from pitiayumi as scored by del Hoyo & Collar (2016) who considered graysoni to be a separate species, while simultaneously overlooking one important character of graysoni that sets it apart from the rest of S. pitiayumi, namely the grey of the face extends to include the malar in graysoni (as in Northern Parula S. americana) vs. the yellow of the throat extends up to include the malar in pitiayumi including insularis (Dunn & Garrett 1997, Iliff et al. 2008). Also, del Hoyo & Collar (2016) tentatively added a score of 2 to the diagnosis of graysoni based on a ‘more complex voice, involving several songs, resembling those of S. ruticilla, S. pensylvanica and S. americana' while insularis apparently has a similar varied repertoire (HGdS pers. obs.). Furthermore, S. pitiayumi (with or without graysoni) may be paraphyletic with respect to S. americana (Lovette & Bermingham 2001, Evans et al. 2015). The situation is clearly very complex and requires further study, including testing the extent of introgression / hybridisation of insularis and pulchra on the Nayarit (and Sinaloa?) mainland, and a phylogeographic study of S. pitiayumi (sensu lato) with samples from throughout the species’ range.

NORTHERN CARDINAL Cardinalis cardinalis mariae (vs. C. c. affinis)

Coloration.—Based on 44 male and 35 female mariae vs. ten male and six female affinis, Grant (1965a) reported that 92% of males had a purple tinge to the plumage vs. 100% without any purple tinge (score 1), 100% of mariae females had cream-white abdomens vs. pale buff in 83% (score 1); and the grey chin and throat of females covered a larger area vs. more restricted white or rarely grey chin (score 2, grey is caused by ‘the black basal half of the feather showing through the overlying white feather-tips, and in island specimens the extent of white in the feather tip is reduced').

Morphometrics.—Longer wing, tarsus and bill (especially bill length in males) (score 2) but shorter tail (score 2). Bill more bulging (consistent with Ridgway 1901 [not scored]).

Additional information.—Smith et al. (2011), Smith & Klicka (2013) and Ortiz-Ramírez et al. (2018) found reciprocal monophyly and deep genetic divergence between mariae and mainland specimens. Smith & Klicka (2013) and Ortiz-Ramírez et al. (2018) reported that small population size has accelerated molecular evolution in mariae.

Reasons for uncertainty.—Grant's (1965a) sample of affinis was inadequate (morphometric characters were evaluated in 4–9 males and six females, and plumage characters in ten males and six females), which is especially problematic because female plumage apparently fades considerably in specimens and males display extensive individual variation (Van Rossem 1932). Furthermore, Baja California race igneus is as likely to be the sister species of mariae as affinis, and it was not explicitly compared by Grant (1965a) who stated only that ‘five specimens of igneus were available too, and it was noted that [mariae] differed from both subspecies (igneus and affinis) mainly in the same way.’ Nelson (1898) in the original description of mariae described it as being closest to igneus, and at least in bill shape it is intermediate between mariae and affinis (Ridgway 1901: 648–649). Ortiz-Ramírez et al. (2018: 726) mentioned that when analysing the haplotype network, mariae was closer to igneus than affinis, although this apparently contradicts both their own highest-probability scenario of colonisation (in their Fig. 4) and the phylogenies of Smith et al. (2011) and Smith & Klicka (2013). Therefore, this case requires further study.