The Mexican Parrotlet (Forpus cyanopygius) is an endemic species of western Mexico, distributed on the Pacific slope from southern Sonora to Colima (^{Navarro and Peterson 2007}). This species inhabits tropical deciduous and semi-deciduous forest, forest edge, plantations, tropical semi-deciduous forest, and riparian vegetation, following seasonally available resources (^{Howell and Webb 1995}, ^{Collar et al. 2019}).

• ^{Navarro and Peterson 2007}
  Forpus cyanopygius (perico catarina) residencia permanente. Distribución potencial. Extraído del proyecto CE015: 'Mapas de las aves de México basados en WWW', 2007
  Forpus cyanopygius (perico catarina) residencia permanente. Distribución potencial. Extraído del proyecto CE015: 'Mapas de las aves de México basados en WWW'
• ^{Howell and Webb 1995}
  A guide to the birds of Mexico and northern Central America, 1995
  A guide to the birds of Mexico and northern Central America
• ^{Collar et al. 2019}
  Mexican Parrotlet (Forpus cyanopygius)

  Handbook of the Birds of the World Alive, 2019
  Mexican Parrotlet (Forpus cyanopygius)

Overall, little is known on the feeding ecology of the Mexican Parrotlet. However, other species of the genus Forpus have a diet based mainly on soft fruits and small seeds (^{Pacheco et al. 2004}, ^{Roncal-Rabanal et al. 2020}). For the Mexican Parrotlet, anecdotal reports suggest that the species has a general diet of fruits of the genus Ficus (^{Forshaw 1989}, ^{Juniper and Parr 1998}). However, almost no concrete reports exist of dietary observations for the species.

• ^{Pacheco et al. 2004}
  Bacteria in the crop of the seed-eating Green-rumped Parrotlet

  Condor, 2004
  Bacteria in the crop of the seed-eating Green-rumped Parrotlet
• ^{Roncal-Rabanal et al. 2020}
  Reporte de dieta del periquito de cara amarilla (Forpus xanthops) en el bosque tropical estacionalmente seco del Marañón, Perú

  Revista Peruana de Biología, 2020
  Reporte de dieta del periquito de cara amarilla (Forpus xanthops) en el bosque tropical estacionalmente seco del Marañón, Perú
• ^{Forshaw 1989}
  Parrots of the world, 3rd. revised edn, 1989
  Forshaw JM. 1989. Parrots of the world, 3rd. revised edn. Blandford, London, United Kingdom.
• ^{Juniper and Parr 1998}
  Parrots: a guide to parrots of the world, 1998
  Juniper T, Parr M. 1998. Parrots: a guide to parrots of the world. Yale University Press, New Haven, Connecticut.

Given the threats to the species from capture for trade and habitat loss (^{Cantú et al. 2007}, ^{Marín-Togo et al. 2012}), the Mexican Parrotlet is considered Threatened under Mexican law (^{SEMARNAT 2010}), and is cataloged as Near Threatened by the International Union for Conservation of Nature (^{Birdlife International 2016}). As for most parrot species, there is a dearth of knowledge on basic natural history of the Mexican Parrotlet. Here we present the first diet report for the Mexican Parrotlet in the wild determined from crop samples collected from three adult individuals.

• ^{Cantú et al. 2007}
  The illegal parrot trade in Mexico: a comprehensive assessment, 2007
  The illegal parrot trade in Mexico: a comprehensive assessment
• ^{Marín-Togo et al. 2012}
  Reduced current distribution of Psittacidae on the Mexican Pacific coast: potential impacts of habitat loss and capture for trade

  Biodiversity Conservation, 2012
  Reduced current distribution of Psittacidae on the Mexican Pacific coast: potential impacts of habitat loss and capture for trade
• ^{SEMARNAT 2010}
  Norma Oficial Mexicana NOM-059-SEMARNAT-2010, Protección ambiental “Especies nativas de México de flora y fauna silvestres” Categorías de riesgo y especificaciones para su inclusión, exclusión o cambio “lista de especies en riesgo

  Diario Oficial de la Federación, 2010
  Norma Oficial Mexicana NOM-059-SEMARNAT-2010, Protección ambiental “Especies nativas de México de flora y fauna silvestres” Categorías de riesgo y especificaciones para su inclusión, exclusión o cambio “lista de especies en riesgo
• ^{Birdlife International 2016}
  Forpus cyanopygius, 2016
  BirdLife International. 2016. Forpus cyanopygius. The IUCN Red List of Threatened Species 2016: e.T22685923A93092541. http://dx.doi.org/10.2305/IUCN.UK.2016-3.RLTS.T22685923A93092541.en. (Downloaded 10 December 2019).

Our observations were made at the campus of the Centro Universitario de la Costa (20o42'15.66"N, -105o13'22.90"W), of the Universidad de Guadalajara in the city of Puerto Vallarta, Mexico. The university campus contains university buildings, green areas of soccer fields, and some remnants of tropical dry forest. This vegetation has a characteristic seasonality in which most tree species shed their leaves during a prolonged dry season, and is considered to have higher plant species richness than other dry forests in America, dominated by Leguminosae, Euphorbiaceae, Rubiaceae, and Bignoniaceae (^{Lott et al. 1987}).

• ^{Lott et al. 1987}
  Floristic diversity and structure of upland and arroyo forests of coastal Jalisco

  Biotropica, 1987
  Floristic diversity and structure of upland and arroyo forests of coastal Jalisco

On 18 December 2018, we observed a flock of approximately 60 Mexican Parrotlets flying across forest remnants that surround the university campus. At ~17:00 h CT, various individuals of the flock crashed against a chain-wire fence that surrounds the soccer fields, causing injuries to 20 individuals, of which three died. These individuals were taken to the Zoology Laboratory at Centro Universitario de la Costa for inspection.

We aged and sexed individuals based on external characteristics, such as the presence of turquoise blue patches on the wings and under tail coverts, morphometric measurements (sensu^{Forshaw 1989}), and inspection of gonads (^{Turcu et al. 2020}). The three individuals were similar in size and body weight (Table 1), with an average body length of 12.7 ± 0.33 cm, close to the largest size recorded for the species (13 cm; ^{Forshaw 1989}), and average body weight of 32.1 ± 2.80 g. However, based on inspection of the gonads we concluded that two individuals were males given the larger, oval-shaped gonad, and one female that showed a distinctive gonad shape, as reported in other Psittacines (^{Turcu et al. 2020}).

• ^{Forshaw 1989}
  Parrots of the world, 3rd. revised edn, 1989
  Forshaw JM. 1989. Parrots of the world, 3rd. revised edn. Blandford, London, United Kingdom.
• ^{Turcu et al. 2020}
  Comparative evaluation of two techniques of sex determination in Lovebirds (Agapornis spp.)

  Bulletin of the University of Agricultural Sciences & Veterinary Medicine Cluj-Napoca. Veterinary Medicine, 2020
  Comparative evaluation of two techniques of sex determination in Lovebirds (Agapornis spp.)
• ^{Forshaw 1989}
  Parrots of the world, 3rd. revised edn, 1989
  Forshaw JM. 1989. Parrots of the world, 3rd. revised edn. Blandford, London, United Kingdom.
• ^{Turcu et al. 2020}
  Comparative evaluation of two techniques of sex determination in Lovebirds (Agapornis spp.)

  Bulletin of the University of Agricultural Sciences & Veterinary Medicine Cluj-Napoca. Veterinary Medicine, 2020
  Comparative evaluation of two techniques of sex determination in Lovebirds (Agapornis spp.)

All individuals presented a full crop at the time of the impact (~17:00 h CT). To determine crop contents, we dissected the three individuals that died, and the collected crop contents were placed in Petri dishes to remove as much moisture as possible and for inspection. Crop contents consisted of plant material, seeds, and, in the case of one individual, partially digested pulp (Fig. 1). Seeds were inspected under the microscope, and were compared with fruits of tree species fruiting in the area. We thereby determined that crop contents were comprised solely of seeds and pulp of Ficus insipida (Moraceae). We weighed the samples to assess total crop content to the nearest 0.01 g (Adam Equipment HCB 302 Scale, United Kingdom). Lastly, we added water to the petri dishes to separate and count the seeds under the microscope. Crop content ranged from 3,015 to 5,400 seeds, with a weight ranging from 1.25 g (female) to 2.12 g (Table 1). Upon inspection, the seeds from two individuals seemed complete, however, in the third individual almost half of the crop content had damaged seeds.

We determined that crop contents for three individuals of the Mexican Parrotlet were comprised of a single species of Ficus insipida, indicating that the birds had been foraging in that tree species. Ficus tree species are an important resource for many vertebrates, including birds, as they produce fruits throughout the year (^{Lambert and Marshall 1991}, ^{Ragusa-Netto 2002}, ^{Kattan and Valenzuela 2013}). Fruit production by Ficus trees is of particular importance during the dry season, a period of resource scarcity (^{Shanahan et al. 2001}, ^{Bianchini et al. 2015}), which coincides with the breeding season of most parrot species in western Mexico (^{Renton 2001}).

• ^{Lambert and Marshall 1991}
  Keystone characteristics of bird dispersed Ficus in Malaysian lowland rain forest

  Journal of Ecology, 1991
  Keystone characteristics of bird dispersed Ficus in Malaysian lowland rain forest
• ^{Ragusa-Netto 2002}
  Fruiting phenology and consumption by birds in Ficus calyptroceras (Miq.) Miq. (Moraceae)

  Brazilian Journal Biology, 2002
  Fruiting phenology and consumption by birds in Ficus calyptroceras (Miq.) Miq. (Moraceae)
• ^{Kattan and Valenzuela 2013}
  Phenology, abundance and consumers of figs (Ficus spp.) in a tropical dry forest: evaluation of a potential keystone resource

  Journal of Tropical Ecology, 2013
  Phenology, abundance and consumers of figs (Ficus spp.) in a tropical dry forest: evaluation of a potential keystone resource
• ^{Shanahan et al. 2001}
  Fig eating by vertebrate frugivores: a global review

  Biological Reviews of the Cambridge Philosophical Society, 2001
  Fig eating by vertebrate frugivores: a global review
• ^{Bianchini et al. 2015}
  Phenology of two Ficus species in seasonal semi-deciduous forest in southern Brazil

  Brazilian Journal of Biology, 2015
  Phenology of two Ficus species in seasonal semi-deciduous forest in southern Brazil
• ^{Renton 2001}
  Lilac-crowned Parrot diet and food resource availability: resource tracking by a parrot seed predator

  Condor, 2001
  Lilac-crowned Parrot diet and food resource availability: resource tracking by a parrot seed predator

In particular, Ficus insipida is a tree species that is widely distributed from Mexico through the Andean region to the lowland rainforest of western Amazonia (^{Honorio-Coronado et al. 2014}). Figs and in particular fruit pulp and seeds of F. insipida have been reported in the diet of many species of parrots. Other example are the seeds of the fig Ficus calyptroceras were parrots are the most important consumers (^{Ragusa-Netto 2002}). F. insipida has been reported in the diet of many psittacine species, from the largest to the smallest species. Specifically, on the Mexican Pacific coast most parrot species consume Ficus fruits and seeds, such as the Military Macaw (Ara militaris; ^{de la Parra-Martínez 2016}), the Lilac-crowned Parrot (Amazona finschi; ^{Renton 2001}), and the Orange-fronted Parakeet (Eupsittula canicularis; ^{Palomera-García 2010}).

• ^{Honorio-Coronado et al. 2014}
  Ficus insipida subsp. insipida (Moraceae) reveals the role of ecology in the phylogeography of widespread Neotropical rain forest tree species

  Journal of Biogeography, 2014
  Ficus insipida subsp. insipida (Moraceae) reveals the role of ecology in the phylogeography of widespread Neotropical rain forest tree species
• ^{Ragusa-Netto 2002}
  Fruiting phenology and consumption by birds in Ficus calyptroceras (Miq.) Miq. (Moraceae)

  Brazilian Journal Biology, 2002
  Fruiting phenology and consumption by birds in Ficus calyptroceras (Miq.) Miq. (Moraceae)
• ^{de la Parra-Martínez 2016}
  Requerimientos ecológicos de la gucamaya verde (Ara militaris) en la costa de Jalisco, 2016
  Requerimientos ecológicos de la gucamaya verde (Ara militaris) en la costa de Jalisco
• ^{Renton 2001}
  Lilac-crowned Parrot diet and food resource availability: resource tracking by a parrot seed predator

  Condor, 2001
  Lilac-crowned Parrot diet and food resource availability: resource tracking by a parrot seed predator
• ^{Palomera-García 2010}
  Habitat use and local harvesting practices of the Orange-fronted Parakeet (Aratinga canicularis) in western Mexico

  Studies on Neotropical Fauna and Environment, 2010
  Habitat use and local harvesting practices of the Orange-fronted Parakeet (Aratinga canicularis) in western Mexico

Resource requirements of parrots and their role in seed dispersal or predation is poorly known (^{Renton et al. 2015}). Some studies have shown that parrots are seed predators (^{Janzen 1981}, ^{Villaseñor-Sánchez et al. 2010}), particularly larger species (^{Matuzak et al. 2008}), but some species may also act as an endozoochorous dispersers (^{Young et al. 2012}, ^{Blanco et al. 2016}). In both cases, parrots have an important role in forest dynamics, maintaining tree species diversity by preventing dominance of particular tree species, and influencing recruitment patterns of trees (^{Villaseñor-Sánchez et al. 2010}, ^{Renton et al. 2015}).

• ^{Renton et al. 2015}
  Resource requirements of parrots: nest-site selectivity and dietary plasticity of Psittaciformes

  Journal of Ornithology, 2015
  Resource requirements of parrots: nest-site selectivity and dietary plasticity of Psittaciformes
• ^{Janzen 1981}
  Ficus ovalis seed predation by an Orange-chinned parakeet (Brotogeris jugularis) in Costa Rica

  Auk, 1981
  Ficus ovalis seed predation by an Orange-chinned parakeet (Brotogeris jugularis) in Costa Rica
• ^{Villaseñor-Sánchez et al. 2010}
  Importance of the Lilac-crowned Parrot in pre-dispersal seed predation of Astronium graveolens in a Mexican tropical dry forest

  Journal of Tropical Ecology, 2010
  Importance of the Lilac-crowned Parrot in pre-dispersal seed predation of Astronium graveolens in a Mexican tropical dry forest
• ^{Matuzak et al. 2008}
  Foraging ecology of parrots in a modified landscape: seasonal trends and introduced species

  Wilson Journal of Ornithology, 2008
  Foraging ecology of parrots in a modified landscape: seasonal trends and introduced species
• ^{Young et al. 2012}
  Alpine flora may depend on declining frugivorous parrot for seed dispersal

  Biological Conservation, 2012
  Alpine flora may depend on declining frugivorous parrot for seed dispersal
• ^{Blanco et al. 2016}
  Internal seed dispersal by parrots: an overview of a neglected mutualism

  PeerJ, 2016
  Internal seed dispersal by parrots: an overview of a neglected mutualism
• ^{Villaseñor-Sánchez et al. 2010}
  Importance of the Lilac-crowned Parrot in pre-dispersal seed predation of Astronium graveolens in a Mexican tropical dry forest

  Journal of Tropical Ecology, 2010
  Importance of the Lilac-crowned Parrot in pre-dispersal seed predation of Astronium graveolens in a Mexican tropical dry forest
• ^{Renton et al. 2015}
  Resource requirements of parrots: nest-site selectivity and dietary plasticity of Psittaciformes

  Journal of Ornithology, 2015
  Resource requirements of parrots: nest-site selectivity and dietary plasticity of Psittaciformes

Small parrot species tend to be more frugivorous (^{Matuzak et al. 2008}, ^{Renton et al. 2015}), and may play an important role in seed dispersal. However, further studies are required to determine the viability of seeds consumed by the Mexican Parrotlet to assess their role as a seed disperser or seed predator. Additionally, specific efforts to assess dietary shifts and the caloric value of different resources are critical for a better understanding of food webs, and proper conservation efforts of this endemic species and other Psittacines in this region.

• ^{Matuzak et al. 2008}
  Foraging ecology of parrots in a modified landscape: seasonal trends and introduced species

  Wilson Journal of Ornithology, 2008
  Foraging ecology of parrots in a modified landscape: seasonal trends and introduced species
• ^{Renton et al. 2015}
  Resource requirements of parrots: nest-site selectivity and dietary plasticity of Psittaciformes

  Journal of Ornithology, 2015
  Resource requirements of parrots: nest-site selectivity and dietary plasticity of Psittaciformes