The Darién comprises a system of humid lowlands dissected by mountain ranges and isolated massifs of moderate elevation, at the junction between Central and South America on the Colombia—Panaman border (Fig 1)—the so-called ‘Darién Gap’. The region has played a significant role in the biogeography and diversification of the Neotropics, serving as a route for or barrier to the exchange of Central and South American faunas during the Tertiary and Pleistocene (Simpson 1950, Mayr 1964, Haffer 1970, Smith & Klicka 2010). This interchange and isolation are evidenced by several lowland birds and contact zones between taxa with origins in Central America, the Chocó, Nechí, Magdalena Valley and Amazonia (Haffer 1967a,b). Likewise, several highland bird species from the Talamanca Mountains and West Andes of Colombia meet in the Darién. Some are recognised as subspecies or represent separate evolutionary lineages (Wetmore 1965, 1968, 1973, Wetmore et al. 1984, Miller et al. 2007, Cadena & Cuervo 2010, Gutiérrez-Pinto et al. 2012). Some authors have proposed the existence of isolated forest refuges on the slopes of several massifs in the region (e.g. Cerro Pirre, Cerro Tacarcuna south to Los Saltos-El Limón and northern Baudó Mountains) during recent geological history (Haffer 1967, Hernández-Camacho et al. 1992) as drivers of the high degree of avian endemism and population differentiation.

Current knowledge of Darién avifauna is incomplete (BirdLife International 2014) and mainly based on historical collections and observations, with better documentation of lowland birds due to easier access (Rodríguez 1982, Hilty & Brown 1986, Ridgely & Gwynne 1989, Bayly et al. 2014, Hruska et al. 2016). In particular, the avifauna of the Gulf of Urabá, north-east of the Colombian Darién, has been studied in greater detail (Haffer 1959, 1967a,b, Bran-Castrillón et al. 2014). In contrast, the Darién highland avifauna has been less studied, although better documented on the Panamanian side, with expeditions to massifs such as Cerro Pirre, Alturas de Nique, Cerro Tacar cuna and its spur Cerro Malí (Wetmore 1965, 1968, 1973, Wetmore et al. 1984, Robbins et al. 1985, Ridgely & Gwynne 1989, Hruska et al. 2016), Altos de Quía (Wetmore & Galindo 1972), Serranía de Jungurudó (Angehr et al. 2004), Serranía de Majé (Angehr & Christian 2000) and the foothills of Cerro Piña (Miller et al. 2011), the last two of which are both isolated massifs north of the Serranía de Jungurudó. In Colombia, Cerro Tacar cuna has been the only Darién massif visited: H. E. Anthony and D. S. Ball in 1915 to the eastern slope of Alto Tacarcuna (Chapman 1917, Haffer 1959, Participantes de la Alianza Biomap 2006), L. Gualdrón et al. to Alto Barrigonal (c. 1,400 m) in 1980 (specimens at Instituto Alexander von Humboldt, Villa de Leyva) and Pearman (1993) who ascended to 1,250 m in the headwaters of the río Tigre. Recent expeditions to the Serranía del Darién were conducted by J. Zuluaga-Bonilla in January 2007 to Cerro La Nevera (08°30′N, 77°26W; c.475–775 m), municipality Acandí, dpto. Chocó; and by JMR-O & T. Walschburger in November 2008 to the headwaters of the río Tanelita at Cerro Tacar cuna (08°13′N, 77°16W; c. 1,250–1,400 m), Comunidad Eyákera, municipality Unguía, dpto. Chocó (Ruiz-Ovalle et al. 2014). Olaciregui et al. (2016) visited the Serranía de Abibe south-east of the Gulf of Urabá. Despite these new data, the paucity of field studies and the complex topography of the Colombian Darién makes this region one of the least biologically documented in the country (Rangel 2004, Arbeláez-Cortés 2013). It is expected that several bird species will be found on the Colombian side, representing range extensions from Panama and / or the Andes, some of them new species for the country and even South America.

Here, we present the results of an expedition to the Colombian slope of Cerro Tacar cuna in August 2010. We present a list of bird species recorded, several of which represent noteworthy range extensions, or additional records of poorly known species (e.g. endemics) from the Darién highlands of Colombia. Finally, we discuss the need for protection of the foothills and highlands of the Colombian Darién.

Methods

Three main mountain ranges run parallel from the eastern Isthmus of Panama to north-west Colombia (Fig. 1). On the Pacific slope, the Serranía de Jungurudó at 1,200 m ranges from its northern outlier, Cerro Sapo, south to the headwaters of the río Jaqué, and is connected to the Cordillera de Jurado and Altos de Aspavé. To the east, this serranía is separated from the Serranía de Pirre by c.30 km of lowlands in the valleys of the ríos Balsas and Jurado (Angehr et al. 2004). The Serranía de Pirre (1,550 m) extends further south to Alturas de Nique and Cerro Quía, and via a relatively high range connects to the Serranía de los Saltos (300–600 m) (Haffer 1970, Angehr et al. 2004). Nearly 50 km of lowlands separate the Pirre ridge from the Serranía del Darién on the Caribean coast (Robbins et al. 1985). This range rises to 1,875 m at Cerro Tacarcuna and extends north to the Serranía de San Blas in Panama, termining abruptly to the south-west at the Gulf of Urabá (Haffer 1970). Almost 100 km of humid lowlands of the Atrato Valley separate the Serranía del Darién from Serranía de Abibe (2,200 m), a northern spur of the West Andes of Colombia. The lower río Atrato drains into the Gulf of Urabá, forming an extensive delta covered by mangrove, riverine vegetation and flooded plains (Haffer 1970, Bran-Castrillón et al. 2014).

Figure 1.

Map of north-western South America and eastern Panama showing the location of the Darien and the major geographical features mentioned in the text. Land above 600 m is indicated in grey to black. Circles represent historical and recent localities, including our study site in the Serranía del Darién: 1 = Cerro La Nevera (475–775 m), municipality Acandí, dpto. Chocó; 2 = Alto Barrigonal (1,400 m), municipality Acandi, dpto. Chocó; 3 = Cuchilla del Lago (1,150 m), Corregimiento de Balboa, municipality Unguía, dpto. Chocó; 4 = headwaters of the río Tanelita (1,250– 1,400 m), Comunidad Eyákera, municipality Unguía, dpto. Chocó; and 5 = headwaters of the río Tigre (1,250 m), municipality Unguia, dpto. Chocó.

We conducted field work along the ridge known as Cuchilla del Lago, Corregimiento de Balboa, municipality Unguía, dpto. Chocó, Colombia (08°13′49″N, 77°14′08″W; 1,150 m). The area lies in the headwaters of the río Bonito, on the east slope of the Cerro Tacarcuna (Fig. 1). We accesed Cuchilla del Lago by opening a trail in primary forest upslope from the left bank of the río Bonito (c.450 m), close to a property currently occupied by the Toro family. Based on our observations, the transition from wet to cloud forests on this part of Cerro Tacar cuna starts at c.900 m. Vegetation at our campsite comprised primary forest with a dense understorey and closed canopy 4–8 m tall, with many epiphytes and palms. Climate in this region is classified as partially dry according to annual precipitation (730–2,025 mm) and humidity (factor: -25–112), compared with wetter and more humid zones in southern Chocó (Poveda-M. et al. 2004).

Three observers made visual and aural records along two transects, between 05.45 h and 18.00 h on 4–7 August 2010. The first transect comprised c.300 m along the ridge at 1,150 m, which permitted us to sample different primary habitats (understorey, canopy facing the ridges and natural clearings). The second transect was at 980-1,150 m and followed the trail we opened to reach the campsite. Simultaneously, two of us undertook c.288 mist-net hours (12 × 2 m; 36 mm mesh) along the first transect, mainly between 06.00 h and 14.00 h. In addition, two observers made sound-recordings using Sony MiniDisc and Zoom-H4 digital recorders with Sennheiser ME-67 shotgun microphones. Recordings are deposited at  www.xeno-canto.org (see Results). We collected some specimens that were mist-netted and others using a Gamo air rifle. Study skins are deposited in the ornithological collection of the Instituto de Ciencias Naturales, Universidad Nacional de Colombia, Bogotá. Muscle tissue samples from each specimen were preserved in 95% Ethanol and deposited at Banco de Tejidos, Universidad de los Andes, Bogotá.

Results

We recorded 84 species in the cloud forest belt at 900–1,150 m. An additional 11 forest species were recorded at 450–900 m (Appendix 1). Of these, significant new distributional data or range extensions are presented for 27 species. Most (16) were expected to occur on the Colombian slope of Cerro Tacar cuna, given that they have been recorded on the Panamanian slope of Cerro Tacarcuna and adjacent Cerro Malí. However, seven species represent range extensions from other Darién massifs in Panama, the Serranía de San Blas, the Chocó lowlands, Serranía de Abibe and / or Western and Central Andes of Colombia. Another four records correspond to rare and poorly known species in Colombia, but previously known from Cerro Tacarcuna.

RED-HEADED BARBET Enhueco bourcierii

A male following a mixed-species canopy flock near our campsite. Although known in Panama from the foothills and highands of Cerro Pirre, Cerro Quía, Cerro Malí and Cerro Tacarcurna (c.550–1,450 m; Wetmore 1968, Robbins et al. 1985, Ridgely & Gwynne 1989), this is the first confirmed record in the Colombian Darién (Hilty & Brown 1986). Recorded in the northern Central Andes, Serranía de San Lucas and the adjacent West Andes (Salaman et al. 2002, McMullan & Donegan 2014).

Figure 2.

Restricted-range and noteworthy birds from Cerro Tacarcuna: (A) female Violet-capped Hummingbird Goldmania violiceps; (B) male White-bibbed Manakin Corapipo leucorrhoa; (C) Varied Solitaire Myadestes coloratus; (D) Yellow-throated Chlorospingus Chlorospingus flavigularis (J. M. Ruiz-Ovalle)

Figure 3.

Ventral, dorsal and lateral views of adult male Scytalopus tapaculos in the Darién highlands and adjacent Western Andes of Colombia, from left to right: Nariño Tapaculo S. vicinior (ICN 31208), Alto de Pisones, 8 km north-west Jegüadas, municipality Mistrató, dpto. Risaralda, 6 June 1992; Tacarcuna Tapaculo S. panamensis (ICN 38181), Cuchilla del Lago, Corregimiento de Balboa, municipality Unguía, dpto. Chocó, 6 August 2010; and Chocó Tapaculo S. chocoensis (ICN 37480), Reserva Natural Río Ñambí, Corregimiento de Altaquer, municipality Barbacoas, dpto. Nariño, 11 October 2009 (J. E. Avendaño)

TACARCUNA TAPACULO Scytalopus panamensis

Common in dense understory of primary forest at 1,040–1,150 m, where at least five vocal individuals were heard daily along a 300 m-transect. Individuals were often seen foraging alone, mainly at ground level up to c.0.5 m. Most were on slightly steep and humid slopes, close to fallen trunks and thickets. An adult male was attracted by its own song using playback, and collected, on 6 August 2010 (ICN 38181; Fig. 3). This is the first specimen for Colombia, although Peatman's (1993) sound recordings published in Krabbe & Schulenberg (1997) mean that it is already treated as a confirmed species for the country. It had small gonads (left testis 1.8 × 0.4 mm), but a fresh incubation patch and symmetric moult on its second primary. Our observations and previous studies on the Serranía del Darién suggest that S. panamensis is the only tapaculo on the Cerro Tacarcuna–Malí and adjacent slopes at 1,050–1,500 m (Wetmore 1972, Hilty & Brown 1986). We did not find Chocó Tapaculo S. chocoensis, which has been recorded on Cerro Pirre (1,350–1,475 m) and Serranía de Jungurudó (c.800–1,000 m) (Angehr et al. 2004), and along the Pacific foothills of the West Andes in Colombia and Ecuador, where it occurs at 250–1,250 m (Krabbe & Schulenberg 1997). The vocalisations of S. panamensis are hardly known (Krabbe & Schulenberg 1997, 2003). We recorded one call type (XC184857–58, 184860) and its primary song (XC184864, 184866, 184868). The call of S. panamensis is a rapid series of 5–6 up-downstrokes, lasting 0.6–0.8 seconds, and repeated every 1.5–4.0 seconds for up to 13.0 seconds, with a max. frequency of 4.0 ± 0.4 kHz (mean and standard deviation, respectively; Fig. 4A). Krabbe & Schulenberg (1997) suggested some similarity between the calls of S. panamensis and S. chocoensis (Fig. 4B) based on a tape-recording by Pearman (1993). However, the call of S. chocoensis has a mean higher variation in frequency (the difference between max. and min. frequencies; 2.0 ± 0.4 kHz, n = 6 vs. 1.2 ± 0.2 kHz, n = 3) and comprises sharp notes. The call of Nariño Tapaculo S. vicinior (Fig. 4C) also differs from that of S. panamensis in its mean lower max. frequency (3.2 ± 0.2 kHz, n = 7) and note shape (e.g. length of stroke ‘tails’). A natural song of S. panamensis was a 16.2-second series of 0.05–0.06-second up-downstroke notes delivered at 3.7 notes / second on average. During playback responses (Fig. 5A), the song was prolonged and faster (lasting 18.8–32.1 seconds and delivered at 4.5–4.7 notes / second, n = 2). Note shape is similar to that of some individuals of S. chocoensis (Fig. 5B–C), and differs from the downstroke notes of S. vicinior (Fig. 5D). It also is faster paced than S. chocoensis, but slower than S. vicinior. Thus, S. panamensis appears to be a vocal and morphologically distinct taxon (Fig. 3), although it overlaps in some vocal attributes with S. vicinior and S. chocoensis, suggesting that they are closely related. Vocalisations referenced herein are detailed in Appendix 2.

Figure 4.

Calls of Scytalopus tapaculos from Darién and the West Andes of Colombia: (A) Tacarcuna Tapaculo S. panamensis natural vocalisation (XC184857, J. E. Avendaño), Cuchilla del Lago, Corregimiento de Balboa, municipality Unguía, dpto. Chocó; (B) Chocó Tapaculo S. chocoensis natural vocalisation (BSA 11716; Álvarez et al. 2007), Tambito Nature Reserve, municipality El Tambo, dpto. Cauca, Colombia; (C) Nariño Tapaculo S. vicinior natural vocalisation (BSA 30763; Álvarez et al. 2007), Las Nubes Nature Reserve, municipality Jericó, dpto. Antioquia. Note the distinctive frequency bandwidth and note shape in S. panamensis. Spectrograms were created using Syrinx v2.6h (Burt 2006) applying the same parameters except for adjusting brightness to improve note resolution.

BLACK-HEADED ANTTHRUSH Formicarius nigricapillus

Solitary individuals, or with mixed-species flocks, observed following army-ant swarms above 1,000 m at our study site. Previously recorded in the Chocó lowlands at Nuquí north to Bahía Solano (D. Calderón-F. pers. comm.), the río Jurubidá on the Pacific coast (Haffer 1967a, Hilty & Brown 1986) and Serranía de Abibe (D. Calderón-F. pers. comm.). The closest locality in Panama is Nusagandi, western San Blas (Ridgely & Gwynne 1989). Black-faced Antthrush F. analis inhabits the Urabá region and the Atrato Valley, but the contact zone between the two species was not previously known. Haffer (1967a) suggested the Alto del Buey area (1,810 m), in the Serranía del Baudó, as a possible contact zone. However, one record of Black-faced Antthrush on the Panamanian slope of Cerro Tacarcuna at 1,180 m (Sullivan et al. 2009), plus an aural record below 800 m at our study site suggests possible contact in the foothills of Cerro Tacarcuna, where the species possibly replace each other elevationally. Specimen collection will be necessary to test Haffer's hypothesis that the two species may hybridise in a narrow zone within this region.

Figure 5.

Primary songs of Scytalopus tapaculos from Darién and the Andes of Colombia and Ecuador: (A) Tacarcuna Tapaculo S. panamensis song after playback (XC184866, J. E. Avendaño), Cuchilla del Lago, Corregimiento de Balboa, municipality Unguía, dpto. Chocó, Colombia; (B) Chocó Tapaculo S. chocoensis natural song (LNS 40016, T. S. Schulenberg), El Placer, prov. Esmeraldas, Ecuador; (C) S. chocoensis natural song (XC60678, K. Allaire), Cerro Pirre, prov. Darién, Panama; (D) Nariño Tapaculo S. vicinior natural song (BSA 15041, Álvarez et al. 2007), Corregimiento de Bitaco, municipality La Cumbre, dpto. Valle del Cauca, Colombia.

VARIED SOLITAIRE My adestes coloratus

One to three were heard daily and sound-recorded (XC184927). Singles took fruits from shrubs in the understorey at 1,100–1,150 m. An adult male was collected on 7 August 2010 (ICN 38185; Fig. 2); stomach contents included fruit and insect parts. The specimen had abundant moult in the body, wing and tail, and small testes (left 3.0 × 1.1 mm), which agrees with an immature collected on 29 August 1996 on Serranía de Majé (Angehr & Christian 2000). An additional specimen (ICN 37358) was collected by JMR-O in November 2008 at río Tanelita (c. 1,400 m), on the east slope of Cerro Tacarcuna. This Darién highland endemic is known in Panama from Cerro Pirre (1,500–1,600 m), Alturas de Nique, Cerro Quía (900 m), Cerro Malí (1,400–1,600) (Ridgely & Gwynne 1989, Wetmore et al. 1984), and recently from Serranía de Majé (c. 1,250–1,500 m) and Serranía de Jungurudó (c. 1,000 m) (Angehr & Christian 2000, Angehr et al. 2004). Despite its broad distribution across isolated massifs in the Darién, and the apparent lack of phenotypic differentiation (Angehr & Christian 2000, Angehr et al. 2004), populations of M. coloratus on Cerro Pirre are genetically distinct from those of Serranía de Majé (Miller et al. 2007).

Figure 6.

Songs and calls of Troglodytes wrens from Panama, Darien and the Andes of Colombia: (A) Ochraceous Wren T. ochraceus natural song (XC31764, A. Spencer), 2,300 m, Sendero Los Quetzales, prov. Chiriquí, Panama; (B) T. ochraceus natural song (XC184885, J. E. Avendaño), Cuchilla del Lago, Corregimiento de Balboa, municipality Unguía, dpto. Chocó, Colombia; (C) Mountain Wren T. solstitialis natural song (BSA 22470, Alvarez et al. 2007), Ibanasca, Corregimiento de Juntas, municipality Ibagué, dpto. Tolima, Colombia; (D) T. ochraceus natural call (XC94688, W. Adsett), 1,650 m, Cerro Colorado, Comarca Ngobe–Bugle, Panama; (E) T. ochraceus natural call (XC184888, J. E. Avendaño), Cuchilla del Lago, Corregimiento de Balboa, municipality Unguía, dpto. Chocó, Colombia; (F) T. solstitialis natural call (XC27530, N. Krabbe), Páramo de Frontino, dpto. Antioquia, Colombia.

Discussion

Despite field work during the last century, the Darién highland avifauna continues to be poorly known. Among the new distributional records here, ten relate to little-known and restricted-range species from the Darién highlands (Russet-crowned Quail-Dove, Bare-shanked Screech Owl, Violet-capped Hummingbird, Tacarcuna Tapaculo, Beautiful Treerunner, Ochraceous Wren, Varied Solitaire and Tacarcuna Chlorospingus) and foothills (Blue-and-gold and Black-and-yellow Tanagers), which represent 40% of the endemic species reported in the region (Fig. 8A). In addition, four species previously known from Panama were recorded for first time in the Darién highlands of Colombia. Two of these (Scaly-throated Foliage-gleaner and Ochraceous Wren) inhabit cloud forests of the West Andes and the Chiriquí highlands, respectively, whereas the remaining species (Blackheaded Antthrush and Yellow-throated Chlorospingus) occur in the foothills of adjacent ranges such as San Blas and Serranía del Baudó. These range extensions, plus another also presented here, are indicative of the poorly known avifauna of the region.

Figure 7.

Lateral views of specimens of Sooty-faced Finch A. crassirostris (A–B) collected on the Colombian slope of Cerro Tacarcuna, compared to a specimen of Olive Finch A. castaneiceps (C) from the West Andes of Colombia: (A) male IAvH-A 3164 and (B) female IAvH-A 3174, from Alto Barrigonal, dpto. Chocó, Colombia; (C) male IAvH-A 8315 from Reserva Natural Río Ñambí, municipality Barbacoas, dpto. Nariño, Colombia (S. Sierra)

Our field work produced the first specimens of Bare-shanked Screech Owl, Violetcapped Hummingbird, Tacarcuna Tapaculo and Varied Solitaire for Colombia. Another eight records represented the first or second specimen records of subspecies endemic to the Darién highlands (e.g. Phaethornis guy coruscans, Catharus f. fuscater, Basileuterus tristriatus tacarcunae) and foothills (Schiffornis veraepacis acrolophites, Chlorospingus flavignlaris hypophaeus). Clearly, the Darién requires further ornithological work to improve our taxonomic, geographic and temporal representation of several poorly known species in bird collections (Cuervo et al. 2008). Sound-recording also yielded the first record of Tacarcuna Tapaculo song, and documented the vocalisations on the Colombian side of endemic taxa such as Bare-shanked Screech Owl, Ochraceous Wren, Varied Solitaire and Tacarcuna Chlorospingus.

Our preliminary list includes 84 species from the cloud forest belt at 900–1,150 m. Although this inventory is probably far from complete, the combination of visual and aural observations, supplemented by sound-recordings and mist-netting enabled us to assemble a representative inventory swiftly. These complementary methodologies have been recommended as the most appropriate for rapid and efficient inventories of tropical forests (Parker 1991, Salaman & Donegan 1998, Stiles & Bohórquez 2000). More species will be added as further field work is conducted and higher elevations are explored in the Tacarcuna range. For example, Robbins et al. (1985) recorded 186 species on Cerro Pirre at 1,000–1,500 m, although species richness (244) was concentrated in the foothills (600–1,000 m).

Nearby lowland ecosystems are currently protected in Colombia within Los Ratios National Park, which covers 72,000 ha at 50–600 m, with 412 bird species recorded (Rodríguez 1982). This park is connected to Darién National Park in Panama (579,000 ha). Highland and lowland Darién endemics are of conservation concern, especially because eight species are currently considered nationally threatened in Colombia (Renjifo et al. 2002). Moreover, the elevational distribution of most Darién endemics is concentrated above 600 m, based on the midpoints of each species' range (Fig. 8A). Exceptions are the rare Spiny-faced Antshrike Xenornis setifrons and Yellow-green Tyrannulet Phylloscartes flavovirens. For highland species, 15 of 16 reach their lower elevational limit at or above 600 m, whereas foothill species attain their upper elevational limit above 600 m. This elevational distribution shown by the endemic avifauna of Darién draws attention to the need to protect the highlands, especially in Colombia where Los Katíos National Park covers forests only below 600 m.

To conserve species endemic to the Darién highlands, one option would be to extend Los Katíos National Park through the Serranía del Darién to the Panamanian border. However, we suggest that a conservation unit, besides including the Serranía del Darién, also should cover the better-preserved Central and Pacific serranías of Pirre and Jungurudó, and the adjacent massifs (Cerro Quía, Alturas de Nique, Altos de Aspavé, Cordillera de Juradó). These mountains harbour six endemics not known to occur in the Serranía del Darién, which has ten endemics confined to it (Fig. 8A). Protecting this area will also conserve high endemism at the subspecies level as the Darién avifauna includes at least 24 endemic subspecies, 21 of them mainly found above 600 m (Fig. 8B). However, endemism could be higher because this region is the contact zone for three well-differentiated lowland faunas, the Pacific coast, Darién and Sinú regions (Hatter 1959), and several endemic subspecies could potentially represent distinctive species (e.g. Basileuterus tristriatus tacarcunae; Donegan 2014). Finally, protection of the Darién could guarantee the conservation of one of the major congregatory zones for Nearctic migratory birds in the Americas (Bayly et al. 2014).

Figure 8.

Elevational and geographic distribution of 29 restricted-range species (A) and 24 restricted-range subspecies (B) in the Darién lowlands and highlands. Taxa ranges (horizontal bars) are ordered according to their elevational midpoint (black dots). Note that most taxon ranges are concentrated above 600 m as shown by the vertical dashed line. Taxon names are followed by one or more superscripts indicating geographic distribution. ¹Pacific: Serranía de Jungurudó, Cerro Sapo and Serranía de Majé. ²Central: Serranía de Pirré, Cerro Quía and Alturas de Nique. ³Caribbean: Serranía del Darién including Cerro Tacarcuna and Cerro Malí. Data from Wetmore (1965,1968,1973), Wetmore et al. (1984), Robbins et al. (1985), Hilty & Brown (1986), Ridgely & Gwynne (1989), Pearman (1993), Angehr & Christian (2000) and Angehr et al. (2004).

Currently, the main threats to the Darién lowland and highland ecosystems are habitat loss and fragmentation due to cattle ranching and large-scale agriculture (e.g. banana plantations), which have accelerated in recent decades in Panama and Colombia (Rangel-C. 2004, Angehr et al. 2004, Sánchez-Cuervo & Aide 2013). Moreover, critical habitats for threatened species such as the Darién highlands could be especially vulnerable to climate change because of the small ranges and isolation of their endemic populations. Indeed, most of those species whose ‘climate envelope’ is projected to disappear in Colombia due to climate change are confined to isolated mountains or regions with well-defined geographic barriers. For example, in the Darién, optimal habitat for Violet-capped Hummingbird is projected to disappear by 2050 (Velásquez-Tibatá et al. 2013). We hope that this study will encourage further biological exploration of the region, and more importantly, draw the attention of environmental agencies and local conservationists as to the need for effective monitoring and implementation of conservation action in the Colombian Darién. Establishing a large bi-national protected area would represent a significant step towards the preservation of one of the most interesting biogeographical regions in the Neotropics (Haffer 1970).