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Distribution and abundance of threatened and heavily traded birds in the mountains of western Java

Published online by Cambridge University Press:  11 May 2023

Stuart J. Marsden*
Affiliation:
Department of Natural Sciences, Manchester Metropolitan University, Manchester, UK
Achmad Ridha Junaid
Affiliation:
Burung Indonesia, Bogor, Indonesia
Fajar Kaprawi
Affiliation:
Burung Indonesia, Bogor, Indonesia
Faris Muladi
Affiliation:
Burung Indonesia, Bogor, Indonesia
Ganjar Cahyo Aprianto
Affiliation:
Burung Indonesia, Bogor, Indonesia
S. (Bas) van Balen
Affiliation:
Basilornis Consults, Muntendampad 15, 6835 BE Arnhem, The Netherlands
Ria Saryanthi
Affiliation:
Burung Indonesia, Bogor, Indonesia
Nigel J. Collar
Affiliation:
BirdLife International, David Attenborough Building, Cambridge, UK
Christian Devenish
Affiliation:
Department of Natural Sciences, Manchester Metropolitan University, Manchester, UK NatureMetrics, Surrey Research Park, Guildford, UK
*
Corresponding author: Stuart J. Marsden; Email: [email protected]
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Summary

There is serious concern for the future of a wide range of birds in Java and elsewhere in Indonesia due to both loss of habitat and trapping for the cagebird trade (the so-called “Asian Songbird Crisis”). Despite this concern, few data on presence and abundance of key species exist. We provide such data on 184 bird species from over two years of biodiversity surveys from 37 sites on 12 mountains in West and Central Java. Many of these species are heavily traded, endemic, and globally threatened. Several of the threatened endemics, notably Javan Trogon and Javan Cochoa, were often recorded, in terms of both geographical spread and numerical abundance. Rufous-fronted Laughingthrush, Spotted Crocias, and Orange-spotted Bulbul, believed to be threatened by trapping for the songbird trade, appear to remain fairly widespread. By contrast, Brown-cheeked Bulbul, Chestnut-backed (Javan) Scimitar-babbler, Javan Oriole, and especially Javan Blue-flycatcher, recorded on just a single occasion, and Javan Green Magpie, which we failed to record with certainty, now appear to be extremely rare. Our encounter rates, while not pinned to specific mountains for security reasons, represent an important baseline against which future changes in abundance can be gauged.

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of BirdLife International

Introduction

For the world’s most populous island, with around 149 million inhabitants, and despite a long occupation by Europeans with a strong tradition of natural history, Java in Indonesia is remarkably poorly known ornithologically. Unlike its larger island neighbours Sumatra and Borneo, it has no modern checklist of birds, and the only recent field guide (Eaton et al. Reference Eaton, van Balen, Brickle and Rheindt2021) and bird atlas (Winnasis et al. Reference Winnasis, Yuda, Imron, Iqbal, Rudyanto and Wahyudi2020) also serve much of the rest of Indonesia. However, the biodiversity of Java is of considerable importance: although the island forms part of the Greater Sunda biogeographical region (“Sundaland”) and shares many species with the Thai-Malay Peninsula, Sumatra, and Borneo, it is also a centre of endemism in its own right (Stattersfield et al. Reference Stattersfield, Crosby, Long and Wege1998); indeed, greater taxonomic scrutiny in the twenty-first century has shown this endemism to be far more pronounced than was previously apparent (del Hoyo and Collar Reference del Hoyo and Collar2014, Reference del Hoyo and Collar2016, Eaton et al. Reference Eaton, van Balen, Brickle and Rheindt2021). Much of Java is montane, concentrated in the tropical forests flanking the island’s many volcanoes; owing to the declining west–east rainfall gradient across the island however the highest endemism and overall biodiversity are concentrated in the west (Whitten et al. Reference Whitten, Soeriaatmadja and Afiff1997).

Researchers wishing to study – and birdwatchers wishing simply to see – the birds endemic to montane western Java almost invariably visit the twin peaks of Mounts Gede and Pangrango which, being only 25 km south-east of Bogor, form easily the most accessible and much the best-known site (Andrew Reference Andrew1985). A consequence of this is that knowledge of the avifaunas of other forested volcanoes in the region has remained rudimentary. For example, the Rufous-fronted Laughingthrush Garrulax rufifrons is known from 15 volcanoes but, as documented in Collar and van Balen (Reference Collar and van Balen2013), only Gede–Pangrango held records from the present century, while half of the other 14 involved records made in or before 1930. Similarly, the Javan Green Magpie Cissa thalassina has only been recorded in the twenty-first century at four of its 18 known sites (van Balen et al. Reference van Balen, Eaton and Rheindt2013). The absence of recent information on these two species at so many sites, and indeed on the extent and condition of their habitat there, has rendered it problematic to assess their IUCN Red List status or to identify the most appropriate conservation measures; the same difficulty affects all other species occupying a similar range.

Prior to fieldwork, an analysis of satellite images of 19 volcanoes in West Java attempted to assess, as best as possible, the extent of remaining montane forest on their slopes (Higginbottom et al. Reference Higginbottom, Collar, Symeonakis and Marsden2019). This indicated that much of the most accessible lower-altitude montane forest has already disappeared and only some 5,200 km2 of montane forest remains, often as fragmented isolates, although official protection has slowed deforestation rates in recent decades (Higginbottom et al. Reference Higginbottom, Collar, Symeonakis and Marsden2019). However, a further problem in assessing the conservation status and needs of the bird species in these forests is the intense pressure on Java’s songbirds exerted by the cagebird and song competition industries (Marshall et al. Reference Marshall, Collar, Lees, Moss, Yuda and Marsden2020). So great is the concern over the fate of the Rufous-fronted Laughingthrush and Javan Green Magpie that they have become the precautionary subject of intensive (and expensive) captive-breeding initiatives (Collar et al. Reference Collar, Gardner, Jeggo, Marcordes, Owen, Pagel and Pes2012, Owen et al. Reference Owen, Wilkinson and Sözer2014), despite the possibility that populations might survive in some of the forests where no surveys have been undertaken in 50 years or more. Equally, if such populations survive but are in poor condition or simply remain unknown, the opportunity may be lost to put in place measures to secure them for the long term. Moreover, a further value in a modern inventory of these forests is their potential for reintroductions of captive-bred birds, if (1) the sites prove to be in good condition but “empty”, having lost the species in question to trapping, and (2) they can be better protected under new management systems.

There are, however, also concerns for the loss of numbers in once extremely common species, e.g. white-eyes, leafbirds, shrikes, bushlarks, and even sunbirds and weavers, and the ecosystem services, such as seed dispersal and pollination, that they provide (e.g. Barros et al. Reference Barros, Peres, Pizo and Ribeiro2019). While evidence of declines due to excessive trapping is clear in species on the brink of extinction (e.g. van Balen and Collar Reference van Balen and Collar2021), in Java, as elsewhere, much less is known about the scale of declines in commoner species, largely due to a lack of baseline historical data (e.g. Hughes Reference Hughes2017). This knowledge gap is slowly being filled in Java’s lowlands by initiatives such as the BigMonth2020 citizen science event and the Indonesian bird atlas (Squires et al. Reference Squires, Yuda, Akbar, Collar, Devenish, Taufiqurrahman and Wibowo2021), and targeted repeat surveys of individual species (van Balen et al. Reference van Balen, Saryanthi and Marsden2022). For Java’s montane birds, knowledge is far more rudimentary and restricted to notes of visiting birdwatchers or records from consultants.

We undertook a two-year bird survey across 11 West (plus one western Central) Javan mountains aimed at identifying areas for enhanced biodiversity protection; mammals and certain amphibians were also surveyed (see, e.g., Devenish et al. Reference Devenish, Junaid, Andriansyah, van Balen, Kaprawi and Aprianto2022), but will be reported elsewhere. Here we present occurrence data for bird species from 622 km of transects from 37 sites on the 12 mountains, and encounter rate data (groups encountered per hour) aggregated across sites. We do not identify bird records with particular sites or mountains for reasons of security, but these data are available to bona fide individuals on request.

Methods

We chose mountain sites based on an evaluation of current knowledge of the fauna and forest status of 20 montane areas in West Java (and Mount Slamet in Central Java; Marsden and Collar 2018 unpublished report). Twelve mountains (Figure 1) were chosen for surveys based on their large extents of remaining forest (Higginbottom et al. Reference Higginbottom, Collar, Symeonakis and Marsden2019), with the potential to provide habitat for species of conservation interest such as Rufous-fronted Laughingthrush and Javan Green Magpie. At each mountain, we chose sites in consultation with local villagers, in areas accessible to a field team along mountain trails as far into the forest area as possible, but also in proximity to water for the camp sites (Figure 1; map of sites). Table 1 shows information on survey effort across the 12 mountains. To support our analyses, we took habitat recordings at 8–21 10-m radius plots positioned every 200 m along transects lines at each site. At each plot we measured/estimated a range of habitat features, but in this paper, we include assessments of forest type, counts of cut stems to indicate forest disturbance, along with cut trails and signs of trapping (see Appendix S2).

Figure 1. Survey sites (circles) in 12 montane areas, 2018-2021, (differing shades of grey denote clusters of sites corresponding to labelled mountains) located in West and Central Java, Indonesia; forest cover shown in green shading.

Table 1. The twelve mountain regions visited with dates, altitudes worked and survey effort.

At each site, we walked transects of variable length and duration along trails emanating from our camp, noting bird species, number of individuals per group, and time of day. Transects were generally walked during the period 06h00–09h00, at an approximate speed of 1 km per hour. In all, 295 transects totalling 622 km and 1,031 hours’ effort were walked across the 37 sites over 127 days between 14 September 2018 and 06 March 2021. The mean length of each transect was 2.1 km, with a mean number of transects per site of 8 (min = 4, max = 16), and a mean length per site of 16.8 km. Transects were walked by one or more of 13 experienced recorders, but with three recorders (ARJ: 206 km; GCA: 189 km; FM: 63 km) contributing nearly 75% of all transect length.

We expressed bird occurrence as the number of transects, sites, and mountains in which the species was recorded. Encounter rates were expressed as mean number of encounters with groups or individuals per hour of each transect. These were then aggregated to site level (including transects on which the species was not recorded) and averaged across all sites, but only where the species was recorded at least once. We present the final figures as mean encounter rate ± standard deviation and a minimum and maximum site-level encounter rate (site absences excluded).

Although comparisons with similarly collected historical data from the mountains of West and Central Java are understandably rare, we do make some broad comparisons of our encounter rates for selected species with those made by BvB in 1981 on Mounts Gede–Pangrango and Puncak, just to the west of our surveys, and from 1995 at two sites on Mount Slamet (van Balen Reference van Balen1984, van Balen unpublished data).

In our analyses, we consider predominantly submontane species with IUCN threatened or Near Threatened classifications (BirdLife International 2021), and non-threatened but traded submontane species, including those regularly recorded in market or household surveys (e.g. Marshall et al. Reference Marshall, Collar, Lees, Moss, Yuda and Marsden2020), and those identified in the priority species list by the IUCN Asian Songbird Trade Specialist Group (ASTSG; www.asiansongbirdtradesg.com). It should be remembered when reviewing the results of these analyses that none of these species is restricted to the mountains covered by this study, being found on at least one other mountain in Java. For security reasons, we do not name any specific mountains or sites in the Results section. Taxonomy follows del Hoyo and Collar (Reference del Hoyo and Collar2014, Reference del Hoyo and Collar2016) plus Lim et al. (Reference Lim, Sadanandan, Dingle, Leung, Prawiradilaga, Irham and Ashari2018) for Sangkar White-eye Zosterops melanurus and Gwee et al. (Reference Gwee, Eaton, Garg, Alström, van Balen, Hutchinson and Prawiradilaga2019) for Javan Blue-flycatcher Cyornis banyumas.

Results

Altogether, 234 bird species were recorded at any time during the surveys, with 184 of these recorded on the transects themselves. Appendix S1 provides a full list of occurrence and encounter rate data for all species recorded on transects. Encounter rates were positively skewed, with the majority of species occurring on few transects and at low rates (Figure 2a). In fact, only 14 species were recorded at rates above 0.5 encounters per hour, just 0.1 encounters per hour greater than the median value. Only two species (Javan Tesia Tesia superciliaris and Pygmy Cupwing Pnoepyga pusilla) had rates of >1 encounters per hour. Rates decreased with decreasing site/transect occupancy (Figure 2a), but showed little difference across categories of extinction risk (Figure 2b).

Figure 2. Mean encounter rates (groups per hour) for 184 bird species across 37 sites in 12 western Javan mountain regions. Shown are (a) the relationship between transect occupancy (number of transects with species presence) and encounter rates (grey bars show 1 standard deviation); (b) median and variability of encounter rates grouped by global Red List categories (2021 assessment). CR = Critically Endangered; EN = Endangered; VU = Vulnerable; NT = Near Threatened; LC + Least Concern.

A total of 32 species of elevated conservation concern (2 Critically Endangered, 5 Endangered, 9 Vulnerable, and 16 Near Threatened) were recorded, either on transects (26 species) or incidentally (Table 2). Orange-spotted Bulbul Pycnonotus bimaculatus was the only species of elevated conservation concern to be recorded on transects on every mountain, being also found on most transects and generally at high encounter rates. The transects were clearly more appropriate for recording some species than certain others such as the nocturnal species; for example, Salvadori’s Nightjar Caprimulgus pulchellus was encountered incidentally on all 12 mountains but only on five mountains during transect surveys. Surprisingly, the Javan Cochoa Cochoa azurea, a retiring, unobtrusive species, was recorded at nearly every site and on all but one mountain, while Javan Trogon Apalharpactes reinwardtii, previously known from only three of the mountains sampled prior to our surveys (Collar and van Balen Reference Collar and van Balen2002), was recorded at nine of them and in around two-thirds of sites. These two species also had reasonably high and quite consistent (low standard deviation) encounter rates across transects. Two heavily trapped threatened species – Rufous-fronted Laughingthrush (around half of mountains and sites) and Spotted Crocias Laniellus albonotatus (around two-thirds of sites/mountains) – proved to occur quite widely. Incidental records of the “Critically Endangered” Javan Blue-banded Kingfisher Alcedo euryzona at single sites on four mountains are notable as there are just a handful of records of the species since the 1930s (Chan and Setiawan Reference Chan and Setiawan2019).

Table 2. Occurrence and encounter rates per site for 32 bird species of conservation concern.

Summary data are given for observations on transects (26 species), including encounter rate + standard deviation, number of transects, sites and mountain regions. Incidental records away from transects are included in the totals inside parenthesis; six species were only observed off transects. Species which are currently heavily trapped are shown in bold. IUCN Red List categories are CR = Critically Endangered, EN = Endangered, VU = Vulnerable, NT = Near Threatened. * Species endemic to Java and Bali; † species with subspecies endemic to Java and Bali. Elevational ranges (see Hoogerwerf Reference Hoogerwerf1948, Eaton et al. Reference Eaton, van Balen, Brickle and Rheindt2021) are m = strictly montane, mainly 1000–3000m, but many start at a lower altitude, s = found at 0–1500m but preferring the higher parts of this zone, l = found at 0–1500m, more inland, higher than sea level, but usually not higher than 800m; all other species are less restricted, but below 1500m.

Of the 26 non-threatened but trapped species we considered (Table 3), four stand out as present at few sites, rarely encountered, or both, namely Javan Oriole Oriolus cruentus (seven sites on three mountains; IUCN Red List category Data Deficient), Chestnut-backed Scimitar-babbler Pomatorhinus montanus (six sites on four mountains), and Mountain Serin Chrysocorythus estherae and Javan Blue-flycatcher (both single records only). In contrast, Chestnut-bellied Partridge Arborophila javanica, Sunda Minivet Pericrocotus miniatus, Rufous-tailed Fantail Rhipidura phoenicura, Chestnut-fronted Shrike-babbler Pteruthius aenobarbus, Javan Grey-throated White-eye Heleia javanica, Snowy-browed Flycatcher Ficedula hyperythra, Indigo Flycatcher Eumyias indigo, Little Pied Flycatcher Ficedula westermanni, and White-flanked Sunbird Aethopyga eximia all occurred on over half of transects, at the great majority of sites on nearly all mountains. While these were fairly consistently recorded across transects at sites, two species, Mountain White-eye Zosterops japonicus (16 of 37 sites but only 32 of 295 transects), and White-bibbed Babbler Stachyris thoracica (20 sites, 35 transects), were found at a reasonable number of sites but only on very few transects, suggesting their local rarity.

Table 3. Occurrence and encounter rates for 26 heavily trapped but non-threatened birds across the twelve Javan mountains surveyed.

* Species endemic to Java and Bali; † species with subspecies endemic to Java and Bali. See Table 2 for elevational ranges.

Table 4 shows comparisons of mean encounter rates (groups per hour) across the surveys. We were able to make reasonable comparisons for 11 species. Of these, we posit that Javan Green Magpie, Chestnut-backed Scimitar-babbler, Javan Fulvetta Alcippe pyrrhoptera, and Javan Grey-throated White-eye appear to have encounter rates from our study markedly lower than those presented previously.

Table 4. Comparisons of mean encounter rates (bird groups per hour) for selected songbirds between surveys done in the 1980s and 1990s and our study (numbers in parentheses are maximum and minimum at occupied sites). Also shown are dates, altitudes and survey effort (hours of morning fieldwork).

Discussion

Java holds high levels of bird endemism, and yet our study represents a rare attempt – another such being van Balen et al. (Reference van Balen, Nijman and Sözer1999) – to gauge abundance systematically in the island’s key birds. It also represents the first documented ornithological surveys of many of the mountains in decades. This was a data gap that needed to be filled, given the rates of environmental change on the island and especially the breadth and volume of bird trapping to supply demand for songbirds (Eaton et al. Reference Eaton J, Shepherd, Rheindt, Harris, van Balen, Wilcove and Collar2015, Marshall et al. Reference Marshall, Collar, Lees, Moss, Yuda and Marsden2020). During over two years of biodiversity surveys, we recorded 234 species, including 32 threatened or “Near Threatened” taxa. Some species suspected to be scarce were in fact widespread and reasonably often encountered at sites. Species such as Javan Trogon and Javan Cochoa, and, to a certain extent, the traded Rufous-fronted Laughingthrush, were encouragingly well-recorded. There was, however, a larger suite of species that were rarer than anticipated: Crested Jay Platylophus galericulatus, White-breasted Babbler, Sangkar White-eye, Javan Oriole, Brown-cheeked Bulbul, White-bellied Fantail Rhipidura euryura, Chestnut-backed Scimitar-babbler, Mountain Serin, and Javan Blue-flycatcher were all either restricted to a few sites, uncommonly recorded within sites, or both. Crested Jay, recorded at just five sites on four mountains, and White-breasted Babbler Stachyris grammiceps, on just three transects on three mountains, were likely rare in our surveys as most effort was above the elevational range of the species (survey effort, at just three and seven sites respectively, was within the core elevational range of the species: Eaton et al. Reference Eaton, van Balen, Brickle and Rheindt2021). Javan Oriole is so poorly known that it may never have been that common in Java’s mountains (BirdLife International 2021), but trapping for the cagebird trade must surely be a concern for several taxa. For both the traded or threatened species and the common Least Concern birds, our occurrence and encounter rate data represent a first baseline against which future trends in bird abundance can be gauged.

A general frustration in conservation biology is the lack of comparable historical data against which to gauge current population densities, thus preventing population trends from being accurately assessed (e.g. Annorbah et al. Reference Annorbah, Collar and Marsden2016). In our case, a literature review revealed no published papers that had used similar encounter rates along transects to survey montane birds in Indonesia, but we did have reasonably comparable counts made in the 1980s and 1990s on the same or nearby mountains. We acknowledge that we must interpret these encounter rates with great caution, for several reasons including survey effort and seasonal differences, but most importantly because we are not comparing the same sites. This said, we do suggest that some potentially interesting patterns emerge. Several species in the current study appear to occur at encounter rates fairly like those from the 1980s and 1990s, i.e. the fantails, White-bibbed and Crescent-chested Babblers, Indigo Flycatcher, and notably Rufous-fronted Laughingthrush among them. There is some support for the notion that Orange-spotted Bulbul, Javan Fulvetta (see Appendix S1), and Javan Grey-throated White-eye may have declined, but this is not strong, given the necessary caveats. In contrast, Chestnut-backed Scimitar-babbler does seem to have become scarcer.

Our work produced a number of new localities for species of conservation interest. We found Javan Scops Owl Otus angelinae and Brown (or Sunda) Wood Owl Strix (leptogrammica) bartelsi on Mount Slamet for the first time, both formerly known from only a few sites. The relatively large and colourful Javan Trogon was found on Slamet, Cikuray, Limbung, Patuha, Masigit, Tilu, Kencana, Simpang, and Papandayan. The more cryptic Javan Cochoa was recorded at all the above plus Malabar and Guntur. Sunda Grasshopper Warbler Locustella montis was found on Slamet and Tilu. White-breasted Babbler, a species known to be present on the foothills of Patuha, Cikuray, and Slamet (van Balen et al. Reference van Balen, Collar, Liley and Rudyanto2005), was not recorded at these sites but compensated by turning up at three new sites (Masigit, Kencana, Papandayan) during our surveys. Mountain White-eye was previously recorded only as far west as Papandayan (Mees Reference Mees1996), but we recorded it at several mountains (Patuha, Masigit, Tilu, Malabar, Kencana and Wayang-Windu) up to 50 km further west. None of the new localities can be considered to reflect recent colonisations; rather they far more likely represent lack of contact in earlier surveys. However, our failure to find White-breasted Babblers at three known sites for the species should be treated as a warning signal: the species may simply have been missed, perhaps because most of our survey efforts were above the elevations where it usually occurs, but it is equally possible that it has steeply declined or disappeared entirely. This is a species that joins understorey mixed flocks in numbers (van Balen et al. Reference van Balen, Collar, Liley and Rudyanto2005) and, as such, might be easily caught in mist-nets. We encourage future visiting birdwatchers to determine which of these scenarios is correct.

As with most status assessments of species in tropical forests, the lack of a historical baseline against which to compare current bird abundance (e.g. Hughes Reference Hughes2017) is frustrating. This is especially true of most of the mountains included in our survey, some of which have not been visited by biologists and naturalists for decades (as inferred from the absence of their names in online search engines considering both academic and popular postings). Without such a baseline, we can at least report on current occurrence and likely abundance, as a core portion of the montane avifauna is both widespread across mountains and readily recorded within sites. This includes Sunda Minivet, Rufous-tailed Fantail, Chestnut-fronted Shrike-babbler, several flycatchers, and White-flanked Sunbird. The list even includes some Red List species, like Javan Cochoa and Orange-spotted Bulbul, classified as Vulnerable and Near Threatened on account of habitat loss and trapping respectively (BirdLife International 2021). The abundance of Chestnut-bellied Partridge is encouraging, given the concern for other ground-dwelling galliforms in Java and elsewhere in Indonesia (Boakes et al. Reference Boakes, Fuller and McGowan2019). It seems likely that, in this part of Java at least, the partridge is no longer targeted for food in numbers by trappers. That components of Java’s montane avifauna remain largely intact bodes well for both their populations in coming years, and for ecosystem functioning (e.g. Loreau et al. Reference Loreau, Naeem, Inchausti, Bengtsson, Grime, Hector and Hooper2001).

In stark contrast, however, we had only a single and unconfirmed record, from one of the team’s local guides, of the Critically Endangered Javan Green Magpie, and we must assume that excessive trade has pushed this once reasonably widespread but perhaps never common species (MacKinnon Reference MacKinnon1988, van Balen et al. Reference van Balen, Eaton and Rheindt2013) to the very brink of extinction. Javan Blue-flycatcher, also suffering from trade pressure (Eaton et al. Reference Eaton J, Shepherd, Rheindt, Harris, van Balen, Wilcove and Collar2015), was recorded just once, although most of our survey effort was above its usual elevational range. Hoogerwerf (Reference Hoogerwerf1969–1971) described it as “one of the commonest flycatchers in Java, perhaps more common at moderate elevations than in the lowlands or highlands”, while in the 1980s the species was described as “one of the commoner flycatchers at moderate to high elevations” (MacKinnon Reference MacKinnon1988). It is now extremely rare in the lowlands (Eaton et al. Reference Eaton, van Balen, Brickle and Rheindt2021) and was recorded only three times in over 20,000 bird lists in a month-long citizen science event in Java and Bali (Squires et al. Reference Squires, Yuda, Akbar, Collar, Devenish, Taufiqurrahman and Wibowo2021). This species, about to be recognised as Critically Endangered (BirdLife International pers. comm.), clearly warrants urgent searches in forests not covered in our survey. While several babbler species appear to be relatively widespread, the current rarity of Chestnut-backed Scimitar-babbler is a major concern, given its frequency in bird markets (Chng and Eaton Reference Chng and Eaton2016, S. Marsden pers. obs.), and especially given that the taxon is likely soon to be treated as a Javan endemic by BirdLife International. This species was, in the 1980s and 1990s, relatively easily recorded in Java’s mountains and was described as “a not uncommon bird, found in loose parties” (MacKinnon Reference MacKinnon1988). Similarly, the abundance of White-bellied Fantail seems to have declined: around a century ago it was collected in numbers similar to those of the related Rufous-tailed Fantail (M. Bartels 1895–1936 unpublished data) and both species were considered fairly common by MacKinnon (Reference MacKinnon1988), yet White-bellied was recorded on nearly 10 times fewer transects than Rufous-tailed in our fieldwork. It is likely that the latter’s higher elevational preference has served it well in terms of protection against forest alteration, excessive trapping, or both. However, these suggestions of abundance declines must be interpreted cautiously, although they certainly are backed up by the perceptions of ornithologists with experience on the island for decades (BvB pers. obs.).

While some of Java’s montane areas, such as Mounts Halimun–Salak and Gede–Pangrango, have been formally protected as national parks since the last century (www.protectedplanet.net), the majority of the forested highlands in West and Central Java are under either weaker management or no protection at all (Higginbottom et al. Reference Higginbottom, Collar, Symeonakis and Marsden2019). Indeed, the objective of our fieldwork was either to support moves towards gazetting further areas as formal reserves, or to enhance protection in alternative ways. Several mountains have stood out as particularly warranting protection, including Mount Slamet, the furthest east of our sites, along with Masigit, Kencana, and Tilu (Devenish et al. Reference Devenish, Junaid, Andriansyah, van Balen, Kaprawi and Aprianto2022). Key taxa driving these judgements included the Endangered Javan Hawk-eagle Nisaetus bartelsi, Javan Leopard Panthera pardus melas, and Javan Gibbon Hylobates moloch, which are among the Indonesian governments “Priority” species for recovery (Mardiastuti et al. Reference Mardiastuti, Kusrini, Mulyani, Manullang and Soehartono2008), but others such as Critically Endangered Rufous-fronted Laughingthrush should also guide decisions. Arguably, however, there are key birds on all mountains surveyed.

How individual sites are best protected is open to debate, but the Indonesian authorities have recently moved away from the idea of further “national parks” towards a more integrated form of land management. This, largely but not wholly in partnership with private sector entities, involves land and forest protection combined with income generation in an “Essential Ecosystem Areas” (EEAs) framework (Sahide et al. Reference Sahide, Fisher, Nasri, Dharmiasih, Verheijen and Maryudi2020, Devenish et al. Reference Devenish, Junaid, Andriansyah, van Balen, Kaprawi and Aprianto2022). Some of our key species will of course benefit from forest protection and restoration, particularly at the lower sections of mountains which have lost most forest in recent decades (Higginbottom et al. Reference Higginbottom, Collar, Symeonakis and Marsden2019). We encountered evidence of bird trapping at all but six of the 38 sites we visited, and all but one site had cut trails that may well have been used for bird trapping (Appendix S2). The survival of a suite of species including Javan Green Magpie, Crested Jay, Javan Blue-flycatcher, and Chestnut-backed Scimitar-babbler will depend on efforts over the next decade to: (1) reduce demand for songbirds; (2) enforce restrictions on trapping and trading of key species; (3) work with local communities at individual sites either to protect remaining populations or to create socio-ecological conditions suitable for re-introductions. This last action appears the most feasible at present, and indeed initiatives centred on species such as Javan Green Magpie are underway. A cornerstone of such initiatives must be to identify and create alternative livelihoods for those who currently gain at least part of their income from bird trapping.

Acknowledgements

Our surveys were supported by the Ministry of Environment and Forestry (Kementerian Lingkungan Hidup dan Kehutanan/KLHK). Permission to work in protected areas was granted by the West Java Agency of Conservation of Natural Resources (Balai Besar Konservasi Sumber Daya Alam Jawa Barat) through permit numbers SI.745/K.1/BIDTEK.1/KSA/03/2019 (Gunung Tilu Nature Reserve and Cimanggu Nature Tourism Park), SI.2733/K.1/BIDTEK.1/KSA/08/2020 (Gunung Simpang Nature Reserve), SI.16/SKW.5/11/2020 (Mount Papandayan Nature Reserve), and SI.03/SKW.5/02/2021 (Kawah Kamojang Nature Reserve). Sites outside the protected areas were surveyed with the permission of Perum Perhutani, through their Regional Division of West Java and Banten (Perum Perhutani Divisi Regional Jawa Barat dan Banten) number 230/016.5/SDM/Divre Janten. We thank our primary sponsor, Rainforest Trust, along with the Silent Forest campaign of the European Association of Zoos and Aquaria (EAZA) and Toledo Zoo. Chester Zoo provided funding for our surveys on Mount Slamet. We are very grateful for the help and hospitality of our guides, porters, and other members of the local communities who kept us safe and comfortable in the field. For assistance with fieldwork on Mount Slamet, we thank Rick Stanley and Gabby Salazar. The following volunteer students joined the project at various stages: Andhika Prasetya, Jehuda Chris Wahyu, Joshua Muhammad Ridwan Firdaus, Wilterza Nababan (Bandung Institute of Technology); Ahmad Nabil Faturahman, Feril Fizar Roziki, Mausul Rohman, Muhammad Lutfhi Ashiddiqi, Umar Fadhli Kennedy, Vanny Lesmana (IPB University); Arya Adi Pratama, Hafiz Aulia Khairy Rakananda (Jenderal Soedirman University); Ahmad Yasin Chumaidi (Nusa Bangsa University); Arya Teguh Prakasa, Ghani Komarudin, Giancoro Juan Alifi S., Iqbal Abi Yaghsyah, Marwan Agung Nugraha, Raihan Anshari (Padjadjaran University); Fathurrohman (State University of Jakarta).

Supplementary material

The supplementary material for this article can be found at http://doi.org/10.1017/S095927092300014X.

References

Andrew, P. (1985) An annotated checklist of the birds of the Cibodas–Gunung Gede Nature Reserve. Kukila 2: 1028.Google Scholar
Annorbah, N. N. D, Collar, N. J. and Marsden, S. J. (2016) Trade and habitat change virtually eliminate the Grey Parrot Psittacus erithacus from Ghana. Ibis 158: 8291.CrossRefGoogle Scholar
van Balen, S. (1984) Comparison of Bird Counts and Bird Observations in the Neighbourhood of Bogor (Indonesia). MSc Student Report, State University of Utrecht.Google Scholar
van Balen, S. and Collar, N. J. (2021) The vanishing act: a history and natural history of the Javan Pied Starling Gracupica jalla. Ardea 109: 4154.CrossRefGoogle Scholar
van Balen, S., Collar, N. J., Liley, D. and Rudyanto, (2005) The White-breasted Babbler Stachyris grammiceps of Java: natural history and conservation status, especially on Gunung Halimun. Forktail 21: 139146.Google Scholar
van Balen, S., Eaton, J. A. and Rheindt, F. E. (2013) Biology, taxonomy and conservation status of the Short-tailed Green Magpie Cissa [t.] thalassina from Java. Bird Conserv. Internatn. 23: 91109.CrossRefGoogle Scholar
van Balen, S., Nijman, V. and Sözer, R. (1999) Distribution and conservation of the Javan Hawk-eagle Spizaetus bartelsi. Bird Conserv. Internatn. 9: 333349.CrossRefGoogle Scholar
van Balen, S., Saryanthi, R. and Marsden, S. J. (2022) Evidence of steep declines in the heavily-traded Javan White-eye from repeated standardised surveys.Bird Conserv. Internatn https://doi.org/10.1017/S0959270922000144.Google Scholar
Barros, F. M., Peres, C. A., Pizo, M. A. and Ribeiro, M. C. (2019) Divergent flows of avian-mediated ecosystem services across forest-matrix interfaces in human-modified landscapes. Landsc. Ecol. 34: 879894.CrossRefGoogle Scholar
BirdLife International (2021) IUCN Red List for birds. Accessed online 25 May 2021 from http://www.birdlife.org.Google Scholar
Boakes, E. H., Fuller, R. A. and McGowan, P. J. K. (2019) The extirpation of species outside protected areas. Conserv. Lett. 12: e12608.CrossRefGoogle Scholar
Chan, B. P. L. and Setiawan, A. (2019) New record of the Critically Endangered Javan Blue-banded Kingfisher Alcedo euryzona in Central Java, Indonesia. BirdingASIA 31: 2427.Google Scholar
Chng, S. C. L. and Eaton, J. A. (2016) In the market for extinction: eastern and central Java. Petaling Jaya, Selangor, Malaysia: TRAFFIC.Google Scholar
Collar, N. J. and van Balen, S. (2002) The Blue-tailed Trogon Harpactes (Apalharpactes) reinwardtii: species limits and conservation status. Forktail 18: 121125.Google Scholar
Collar, N. J. and van Balen, S. (2013) Notes for the conservation of the Rufous-fronted Laughingthrush Garrulax rufifrons. Forktail 29: 1518.Google Scholar
Collar, N. J., Gardner, L., Jeggo, D. F., Marcordes, B., Owen, A., Pagel, T., Pes, T., et al. (2012) Captive breeding and the most threatened birds in Asia. BirdingASIA 18: 5057.Google Scholar
Devenish, C., Junaid, A. R., Andriansyah, Saryanthi, R., van Balen, S., Kaprawi, F., Aprianto, G. C., et al. (2022) Biological richness of Gunung Slamet, Central Java, and the need for its protection. Oryx 56:.429438.CrossRefGoogle Scholar
Eaton, J. A., van Balen, B., Brickle, N. W. and Rheindt, F. E. (2021) Birds of the Indonesian Archipelago: Greater Sundas and Wallacea. Second edition. Barcelona, Spain: Lynx Edicions.Google Scholar
Eaton J, A., Shepherd, C. R., Rheindt, F. E., Harris, J. B. C., van Balen, S. (B.), Wilcove, D. S. and Collar, N. J. (2015) Trade-driven extinctions and near-extinctions of avian taxa in Sundaic Indonesia. Forktail 31: 112.Google Scholar
Gwee, C. Y., Eaton, J. A., Garg, K. M., Alström, P., van Balen, S. (B.), Hutchinson, R. O., Prawiradilaga, D. M., et al. (2019) Cryptic diversity in Cyornis (Aves: Muscicapidae) jungle-flycatchers flagged by simple bioacoustic approaches. Zool. J. Linn. Soc. 20: 117.Google Scholar
Higginbottom, T. P., Collar, N. J., Symeonakis, E. and Marsden, S. J. (2019) Deforestation dynamics in an endemic-rich mountain system: conservation successes and challenges in West Java 1990–2015. Biol. Conserv. 229: 152159.CrossRefGoogle Scholar
Hoogerwerf, A. (1948) Contribution to the knowledge of the distribution of birds on the island of Java, with remarks on some new birds. Treubia 19: 83137.Google Scholar
Hoogerwerf, A. (1969–1971) On the ornithology of the Rhino Sanctuary Udjung Kulon in West Java (Indonesia). Nat. Hist. Bull. Siam Soc. 23: 965, 447–500; 24: 79–135.Google Scholar
del Hoyo, J. and Collar, N. J. (2014) The HBW–BirdLife International illustrated checklist of the birds of the world, 1: non-passerines. Barcelona, Spain: Lynx Edicions.Google Scholar
del Hoyo, J. abd Collar, N. J. (2016) The HBW–BirdLife International illustrated checklist of the birds of the world, 2: passerines. Barcelona, Spain: Lynx Edicions.Google Scholar
Hughes, A. C. (2017) Mapping priorities for conservation in Southeast Asia. Biol. Conserv. 209: 395405.CrossRefGoogle Scholar
Lim, B. T. M., Sadanandan, K. R., Dingle, C., Leung, Y. Y., Prawiradilaga, D. M., Irham, M., Ashari, H., et al. (2018) Molecular evidence suggests radical revision of species limits in the great speciator white-eye genus Zosterops . J. Ornithol. 160: 116.CrossRefGoogle Scholar
Loreau, M., Naeem, S., Inchausti, P., Bengtsson, J., Grime, J. P., Hector, A., Hooper, D. U., et al. (2001) Biodiversity and ecosystem functioning: current knowledge and future challenges. Science 294: 804808.CrossRefGoogle ScholarPubMed
MacKinnon, J. (1988) Field guide to the birds of Java and Bali. Yogyakarta, Indonesia: Gadjah Mada University Press.Google Scholar
Mardiastuti, A., Kusrini, M. D., Mulyani, Y. A., Manullang, S. and Soehartono, T. (2008) Arahan strategis konservasi spesies nasional 2008–2018. Jakarta, Indonesia: Direktorat Jenderal Perlindungan Hutan dan Konservasi Alam-Departemen Kehutanan RI.Google Scholar
Marshall, H., Collar, N. J., Lees, A. C., Moss, A., Yuda, P. and Marsden, S. J. (2020) Spatio-temporal dynamics of consumer demand driving the Asian Songbird Crisis. Biol. Conserv. 241: 108237.CrossRefGoogle Scholar
Mees, G. F. (1996) Geographical variation in birds of Java. Issue 26. Cambridge, MA, USA: Nuttall Ornithological Club.Google Scholar
Owen, A., Wilkinson, R. and Sözer, R. (2014) Ex situ conservation breeding and the role of zoological institutions and private breeders in the recovery of highly endangered Indonesian passerine birds. Internatn. Zoo Yearb. 48: 199211.CrossRefGoogle Scholar
Sahide, M. A. K., Fisher, M., Nasri, N., Dharmiasih, W., Verheijen, B. and Maryudi, A. (2020) Anticipating a new conservation bureaucracy? Land and power in Indonesia’s Essential Ecosystem Area policy. Land Use Policy 97: 104789.CrossRefGoogle Scholar
Squires, T., Yuda, P., Akbar, P., Collar, N. J., Devenish, C., Taufiqurrahman, I., Wibowo, W., et al. (2021) Citizen science rapidly delivers extensive distribution data for birds in a key tropical biodiversity area. Glob. Ecol. Conserv. 28: e01680.Google Scholar
Stattersfield, A. J., Crosby, M. J., Long, A. J. and Wege, D. C. (1998) Endemic bird areas of the world: priorities for biodiversity conservation. Conservation Series 7. Cambridge, UK: BirdLife International.Google Scholar
Whitten, T., Soeriaatmadja, R. E. and Afiff, S. A. (1997) The ecology of Java and Bali. Oxford, UK: Oxford University Press.Google Scholar
Winnasis, S., Yuda, P., Imron, M. A., Iqbal, M., Rudyanto, and Wahyudi, H. A. eds. (2020) Atlas Burung Indonesia: wujud karya peneliti amatir dalam memetakan burung nusantara. Batu, Indonesia: Yayasan Atlas Burung Indonesia.Google Scholar
Figure 0

Figure 1. Survey sites (circles) in 12 montane areas, 2018-2021, (differing shades of grey denote clusters of sites corresponding to labelled mountains) located in West and Central Java, Indonesia; forest cover shown in green shading.

Figure 1

Table 1. The twelve mountain regions visited with dates, altitudes worked and survey effort.

Figure 2

Figure 2. Mean encounter rates (groups per hour) for 184 bird species across 37 sites in 12 western Javan mountain regions. Shown are (a) the relationship between transect occupancy (number of transects with species presence) and encounter rates (grey bars show 1 standard deviation); (b) median and variability of encounter rates grouped by global Red List categories (2021 assessment). CR = Critically Endangered; EN = Endangered; VU = Vulnerable; NT = Near Threatened; LC + Least Concern.

Figure 3

Table 2. Occurrence and encounter rates per site for 32 bird species of conservation concern.

Figure 4

Table 3. Occurrence and encounter rates for 26 heavily trapped but non-threatened birds across the twelve Javan mountains surveyed.

Figure 5

Table 4. Comparisons of mean encounter rates (bird groups per hour) for selected songbirds between surveys done in the 1980s and 1990s and our study (numbers in parentheses are maximum and minimum at occupied sites). Also shown are dates, altitudes and survey effort (hours of morning fieldwork).

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