DOCSLIB.ORG

Downloaded From

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Downloaded From UCLA UCLA Electronic Theses and Dissertations Title Living for the city: Using community science and historical data to understand avian response to urbanization Permalink https://escholarship.org/uc/item/36z733nf Author Cooper, Daniel Steven Publication Date 2020 Peer reviewed|Thesis/dissertation eScholarship.org Powered by the California Digital Library University of California UNIVERSITY OF CALIFORNIA Los Angeles Living for the city: Using community science and historicAl datA to understAnd aviAn response to urbanizAtion A dissertAtion submitted in partiAl sAtisfaction of the Requirements for the degree Doctor of Philosophy in Biology by DAniel Steven Cooper 2020 © Copyright by DAniel Steven Cooper 2020 ABSTRACT OF THE DISSERTATION Living for the city: Using community science and historicAl datA to understAnd aviAn response to urbanizAtion by DAniel Steven Cooper Doctor of Philosophy in Biology University of CaliforniA, Los Angeles, 2020 Professor DAniel T. Blumstein, Co-Chair Professor PAmelA J. Yeh, Co-Chair As the world urbanizes, wildlife species will be forced to adapt to changed environments to survive. Despite the variety of development patterns and urban design of cities, species must overcome the loss of open space And transformAtion of natural vegetAtion to survive. I investigated spatiotemporal patterns of bird distribution to reveAl wAys urban wildlife communities Assemble And persist. I first explored five decAdes of changes in nest sites relAtive to ornamentAl tree usAge and urban lAnd cover in a raptor community neAr Los Angeles. I showed that nest site re-use varied by species over time, And that nest substrate choice has shifted from lArgely native to strongly non-native. The amount of urban cover around most species’ nest sites has increAsed, but Cooper’s HAwk nest sites have become more urban than expected. I then expanded the study areA to include the entire Los Angeles Basin, assembling occurrence datA for ii more than 50 species from the 1990s to present. Using phylogeneticAlly-informed models, I identified two ecologicAl traits that were significAntly associAted with occurrence in urban areAs then and now: the tendency to nest on artificiAl structures (positively), and the tendency to use natural cAvities (negatively). Phylogenetic relAtedness wAs uncorrelAted with urban occurrence, suggesting that a variety of birds – not just those in a few families or genera –persist or reinvade As the lAndscApe urbanizes. Finally, I expanded my analysis to the world’s hawks (Accipitridae), using community-science records from 62 cities. Modeling three urban occurrence indices with life history traits, I found eAch index negatively AssociAted with body mAss, And found positive AssociAtions with both nest substrate and habitAt breAth. Again, I found no evidence of phylogenetic signal in the models, which suggests that Although urban hawks tend to be smaller- bodied generalists, multiple lineAges mAy succeed in cities. All three analyses provide examples of the potentiAl of community science datA, including historicAl datAsets, to reveAl patterns that might not be apparent from single studies in particulAr geographicAl areAs. They also illustrate the persistence of ecologicAl traits associAted with urbanizAtion, even as natural communities vary around the world And change over time. iii The dissertAtion of DAniel Steven Cooper is approved. ThomAs W. Gillespie ThomAs B. Smith DAniel T. Blumstein, Committee Co-Chair PAmelA J. Yeh, Committee Co-Chair University of CaliforniA, Los Angeles 2020 iv Table of Contents Acknowledgments .......................................................................................................................... vi Vita ................................................................................................................................................ vii Chapter 1. Introduction .................................................................................................................... 1 Chapter 2. Tolerance and avoidance of urban cover in a southern CaliforniA suburban raptor community over five decAdes. ....................................................................................................... 18 Chapter 3. Temporally separated datA sets reveAl similAr traits of birds persisting in a United StAtes Megacity ............................................................................................................................. 28 Chapter 4. Is there a “global urban raptor”? Using community science datA to identify traits AssociAted with urban occurrence in Accipiteridae ....................................................................... 40 TAble 1. Three urban index variAbles used to cAlculAte raptor occurrence in urban areAs. ....... 47 Figure 1. The relAtionship between three urban occurrence variAbles (urban abundance, species proportion, and urban preference) using 90 focAl raptor species across 62 cities. ....... 49 TAble 2. Traits used in analysis. ................................................................................................ 51 TAble 3. Comparison of phylogeneticAlly signal of eAch of the urban indices using three modes of evolution (BrowniAn, OU, PAgel’s lAmbda) and one non-phylogeneticAlly informed model. ................................................................................................................................................... 54 TAble 4. Comparison of AIC scores of four models used to test three urban indices against six traits. .......................................................................................................................................... 55 TAble 5. Results from the best model for eAch urban index using Generalized LeAst Squares tests, fitted to explAin variAtion based on six traits analyzed. ................................................... 56 SupplementAl InformAtion ......................................................................................................... 63 v Acknowledgments I wish to thank my family for supporting my “side job” as a UCLA grad student, and my graduate committee (Dr. DAniel Blumstein, Dr. PAmelA Yeh, Dr. ThomAs Smith and Dr. ThomAs Gillespie) for their encouragement and support through this process. Dr. DAniel T. Blumstein and the members of the Blumstein lAb were particulArly helpful, at every stAge from orientAtion until now. I also wish to thank two UCLA faculty members, Drs. H. Bradley Shaffer and Ryan J. HArrigan, And TessA VillAseñor, Graduate Student AffAirs Officer, for their support and AssistAnce throughout. PleAse refer to the Acknowledgments in Chapters 2 and 3 (reprints of published Articles). This reseArch wAs conducted and published at the direction of my Committee Co-Chair, DAniel T. Blumstein. For Chapter 4, I wish to acknowledge DAniel T. Blumstein, Allison J. Shultz, and Cagan Sekerciglou for their assistAnce. Rachel BlAkey and Adam Pingatore assisted with datA analysis, And ThomAs B. Smith provided helpful comments on an eArlier draft. Funding for my Ph.D. work at UCLA wAs provided in part by the SustAinable Los Angeles Grand Challenge grant from UCLA, and I am particulArly grateful to MArk Gold for seeing the value of this reseArch. vi Vita EDUCATION University of California, Los Angeles, PhD cAndidate (Biology) University of California, Riverside, MSc 1999 (Biogeography) Harvard University, AB 1995 (Biology) SELECTED RESEARCH GRANTS University of California, Los Angeles, “Grand Challenge”. Management tools to promote the coexistence of L.A.’s nesting raptors and herons. (2017-2019. $56,000). Co-PI with Dr. DAniel Blumstein and Dr. PAmelA Yeh, UCLA. California Department of Parks and Recreation, Off-Highway Motor Vehicle Recreation Division. An assessment of the current and historic breeding status of the Golden Eagle and other raptors within the Jawbone-Butterbredt Area of Critical Environmental Concern. $65,000; 2018/2019 An assessment of the breeding status of the Golden Eagle and other raptors on BLM lands within a portion of the southern Sierra Mountains with additional emphasis on determination of the distribution of the LeConte’s Thrasher at lower elevations within the study area. $196,000. Co-PI with Bill HAAs, PAcific Coast Conservation AlliAnce. TEACHING/RESEARCH POSITIONS Research Associate, NAtural History Museum of Los Angeles County, Department of Ornithology, 2020-present. Visiting Researcher; HArvard Forest, Petersham, MA. Breeding bird survey of forest property in 2011 and 2013; butterfly surveys in 2015 and 2016. Thesis Advisor; MAster’s Students at CaliforniA StAte University, Los Angeles, and Oregon StAte University (2015-present). Teaching Assistant; University of CaliforniA, Los Angeles and Univ. of CaliforniA, Riverside. EEB 114 (Ornithology) and Geography 113 (Humid Tropics), 2019; courses in Geomorphology, NAtural DisAsters, and Astronomy, 1998-1999. Fellow; Center for Urban Resilience, LoyolA MArymount Univ., Westchester, CA. Co-tAught BIO 398, a field biology course (with Dr. Eric Strauss); informAlly advised graduate students, 2012-2015. Instructor; UCLA Extension School, Los Angeles, CA. Developed and tAught courses on conservation biology and bird monitoring, organized overnight field trips, 2001 - 2003. WORK HISTORY Cooper Ecological Monitoring, Inc. Los Angeles, CA. 2005 - present President. An independent ecologicAl consulting firm speciAlizing in lAnd use, wildlife and biodiversity issues, we provide expertise in study design & analysis, ecologicAl assessment, and mAnagement
Load more

Recommended publications
  • Environmental Sensitivity Index Guidelines Version 2.0
    NOAA Technical Memorandum NOS ORCA 115 Environmental Sensitivity Index Guidelines Version 2.0 October 1997 Seattle, Washington noaa NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION National Ocean Service Office of Ocean Resources Conservation and Assessment National Ocean Service National Oceanic and Atmospheric Administration U.S. Department of Commerce The Office of Ocean Resources Conservation and Assessment (ORCA) provides decisionmakers comprehensive, scientific information on characteristics of the oceans, coastal areas, and estuaries of the United States of America. The information ranges from strategic, national assessments of coastal and estuarine environmental quality to real-time information for navigation or hazardous materials spill response. Through its National Status and Trends (NS&T) Program, ORCA uses uniform techniques to monitor toxic chemical contamination of bottom-feeding fish, mussels and oysters, and sediments at about 300 locations throughout the United States. A related NS&T Program of directed research examines the relationships between contaminant exposure and indicators of biological responses in fish and shellfish. Through the Hazardous Materials Response and Assessment Division (HAZMAT) Scientific Support Coordination program, ORCA provides critical scientific support for planning and responding to spills of oil or hazardous materials into coastal environments. Technical guidance includes spill trajectory predictions, chemical hazard analyses, and assessments of the sensitivity of marine and estuarine environments to spills. To fulfill the responsibilities of the Secretary of Commerce as a trustee for living marine resources, HAZMAT’s Coastal Resource Coordination program provides technical support to the U.S. Environmental Protection Agency during all phases of the remedial process to protect the environment and restore natural resources at hundreds of waste sites each year.
    [Show full text]
  • Bird) Species List
    Aves (Bird) Species List Higher Classification1 Kingdom: Animalia, Phyllum: Chordata, Class: Reptilia, Diapsida, Archosauria, Aves Order (O:) and Family (F:) English Name2 Scientific Name3 O: Tinamiformes (Tinamous) F: Tinamidae (Tinamous) Great Tinamou Tinamus major Highland Tinamou Nothocercus bonapartei O: Galliformes (Turkeys, Pheasants & Quail) F: Cracidae Black Guan Chamaepetes unicolor (Chachalacas, Guans & Curassows) Gray-headed Chachalaca Ortalis cinereiceps F: Odontophoridae (New World Quail) Black-breasted Wood-quail Odontophorus leucolaemus Buffy-crowned Wood-Partridge Dendrortyx leucophrys Marbled Wood-Quail Odontophorus gujanensis Spotted Wood-Quail Odontophorus guttatus O: Suliformes (Cormorants) F: Fregatidae (Frigatebirds) Magnificent Frigatebird Fregata magnificens O: Pelecaniformes (Pelicans, Tropicbirds & Allies) F: Ardeidae (Herons, Egrets & Bitterns) Cattle Egret Bubulcus ibis O: Charadriiformes (Sandpipers & Allies) F: Scolopacidae (Sandpipers) Spotted Sandpiper Actitis macularius O: Gruiformes (Cranes & Allies) F: Rallidae (Rails) Gray-Cowled Wood-Rail Aramides cajaneus O: Accipitriformes (Diurnal Birds of Prey) F: Cathartidae (Vultures & Condors) Black Vulture Coragyps atratus Turkey Vulture Cathartes aura F: Pandionidae (Osprey) Osprey Pandion haliaetus F: Accipitridae (Hawks, Eagles & Kites) Barred Hawk Morphnarchus princeps Broad-winged Hawk Buteo platypterus Double-toothed Kite Harpagus bidentatus Gray-headed Kite Leptodon cayanensis Northern Harrier Circus cyaneus Ornate Hawk-Eagle Spizaetus ornatus Red-tailed
    [Show full text]
  • Federal Register/Vol. 85, No. 74/Thursday, April 16, 2020/Rules
    21282 Federal Register / Vol. 85, No. 74 / Thursday, April 16, 2020 / Rules and Regulations DEPARTMENT OF THE INTERIOR United States and the Government of United States or U.S. territories as a Canada Amending the 1916 Convention result of recent taxonomic changes; Fish and Wildlife Service between the United Kingdom and the (8) Change the common (English) United States of America for the names of 43 species to conform to 50 CFR Part 10 Protection of Migratory Birds, Sen. accepted use; and (9) Change the scientific names of 135 [Docket No. FWS–HQ–MB–2018–0047; Treaty Doc. 104–28 (December 14, FXMB 12320900000//201//FF09M29000] 1995); species to conform to accepted use. (2) Mexico: Convention between the The List of Migratory Birds (50 CFR RIN 1018–BC67 United States and Mexico for the 10.13) was last revised on November 1, Protection of Migratory Birds and Game 2013 (78 FR 65844). The amendments in General Provisions; Revised List of this rule were necessitated by nine Migratory Birds Mammals, February 7, 1936, 50 Stat. 1311 (T.S. No. 912), as amended by published supplements to the 7th (1998) AGENCY: Fish and Wildlife Service, Protocol with Mexico amending edition of the American Ornithologists’ Interior. Convention for Protection of Migratory Union (AOU, now recognized as the American Ornithological Society (AOS)) ACTION: Final rule. Birds and Game Mammals, Sen. Treaty Doc. 105–26 (May 5, 1997); Check-list of North American Birds (AOU 2011, AOU 2012, AOU 2013, SUMMARY: We, the U.S. Fish and (3) Japan: Convention between the AOU 2014, AOU 2015, AOU 2016, AOS Wildlife Service (Service), revise the Government of the United States of 2017, AOS 2018, and AOS 2019) and List of Migratory Birds protected by the America and the Government of Japan the 2017 publication of the Clements Migratory Bird Treaty Act (MBTA) by for the Protection of Migratory Birds and Checklist of Birds of the World both adding and removing species.
    [Show full text]
  • WHERE to WATCH RAPTOR MIGRATION in SOUTH AMERICA Where to Watch Raptor Migration in South America Matias A
    >> FEATURE WHERE TO WATCH RAPTOR MIGRATION IN SOUTH AMERICA Where to watch raptor migration in South America Matias A. Juhant In the second, and final, part in our series describing where to watch raptor migration in the Neotropics, Matias Juhant takes us on a whistle- stop tour of raptor watchpoints across South America. As we will discover, there is still much to be learned and plenty of opportunities for interested birdwatchers to make a contribution to our cumulative knowledge. lthough South America has the world’s richest avifauna, bird migration within the A continent is largely unknown11. Raptors provide a good example of how little we know concerning this phenomenon. The most complete overview of raptor migration in South America was published ten years ago by Zalles & Bildstein31, who demonstrated for the first time the different migration routes, and described 20 potential watchsites for the establishment of long-term monitoring programmes. That said we still lack raptor-monitoring sites, and information on the main wintering areas, bottlenecks, and details of migration routes in South America. Here, I examine our current knowledge of raptor migration in South America and describe 35 sites to watch raptors on migration in the continent. Raptor migration systems in South America Ninety-six species of raptors occur in South America, 45 of which (47%) migrate in parts of their ranges. Five species are ‘complete’ migrants, 23 ‘partial’ migrants and 17 ‘irruptive or local’ migrants. These species occur in three migration systems (Table 1). Nearctic–Neotropical system.—This includes species that breed in the Nearctic and over-winter in the Neotropics.
    [Show full text]
  • Mimicry in Birds of Prey Published 4 April 2013
    Brazilian raptors (Online publications) www.avesderapinabrasil.com Mimicry in birds of prey Published 4 April 2013 Juvenile Grey-headed Kite (Leptodon cayanensis) with a plumage pattern that imitates almost perfectly an Ornate Hawk-Eagle (Spizaetus ornatus). Belterra (Pará), March 2013. Photo: Eleonora Pinheiro Willian Menq 1 Email: [email protected] Translated by Johan Ingels. Mimicry in birds of prey is impressive although uncommon. Some predators use mimicry as a hunting strategy. This is the case with the Zone-tailed Hawk (Buteo albonotatus) which imitates the inoffensive vultures of the genus Cathartes to approach prey (Peckhamian mimicry). But a mimic that mimics another more dangerous species, seems to be the most common type of mimicry among hawks in Brazil. So, the Rufous-thighed Kite (Harpagus diodon) which has a predominantly insectivorous diet mimics a Bicoloured Hawk (Accipiter bicolor) which mostly hunts birds. Other species of raptors only utilise mimicry as a juvenile, which is the case with the Grey- bellied Hawk (Accipiter poliogaster) and the Grey-headed Kite (Leptodon cayanensis). The juvenile plumage of the Grey-bellied Hawk is very similar to the adult plumage of the Ornate Hawk-Eagle (Spizaetus ornatus), possibly as a defense against other hawks and large primates that could prey on its nest. The juvenile Grey-headed Kites are highly polymorphic, presenting diverse plumage patterns. There are totally white individuals that mimic the Black-and-white Hawk-Eagle (Spizaetus melanoleucus), others are almost completely black resembling a Black Hawk-Eagle (Spizaetus tyrannus), and there are some rare intermediate forms that have little 1 MENQ, W. (2013).
    [Show full text]
  • Breeding Biology of Neotropical Accipitriformes: Current Knowledge and Research Priorities
    Revista Brasileira de Ornitologia 26(2): 151–186. ARTICLE June 2018 Breeding biology of Neotropical Accipitriformes: current knowledge and research priorities Julio Amaro Betto Monsalvo1,3, Neander Marcel Heming2 & Miguel Ângelo Marini2 1 Programa de Pós-graduação em Ecologia, IB, Universidade de Brasília, Brasília, DF, Brazil. 2 Departamento de Zoologia, IB, Universidade de Brasília, Brasília, DF, Brazil. 3 Corresponding author: [email protected] Received on 08 March 2018. Accepted on 20 July 2018. ABSTRACT: Despite the key role that knowledge on breeding biology of Accipitriformes plays in their management and conservation, survey of the state-of-the-art and of information gaps spanning the entire Neotropics has not been done since 1995. We provide an updated classification of current knowledge about breeding biology of Neotropical Accipitridae and define the taxa that should be prioritized by future studies. We analyzed 440 publications produced since 1995 that reported breeding of 56 species. There is a persistent scarcity, or complete absence, of information about the nests of eight species, and about breeding behavior of another ten. Among these species, the largest gap of breeding data refers to the former “Leucopternis” hawks. Although 66% of the 56 evaluated species had some improvement on knowledge about their breeding traits, research still focus disproportionately on a few regions and species, and the scarcity of breeding data on many South American Accipitridae persists. We noted that analysis of records from both a citizen science digital database and museum egg collections significantly increased breeding information on some species, relative to recent literature. We created four groups of priority species for breeding biology studies, based on knowledge gaps and threat categories at global level.
    [Show full text]
  • Accipitridae Species Tree
    Accipitridae I: Hawks, Kites, Eagles Pearl Kite, Gampsonyx swainsonii ?Scissor-tailed Kite, Chelictinia riocourii Elaninae Black-winged Kite, Elanus caeruleus ?Black-shouldered Kite, Elanus axillaris ?Letter-winged Kite, Elanus scriptus White-tailed Kite, Elanus leucurus African Harrier-Hawk, Polyboroides typus ?Madagascan Harrier-Hawk, Polyboroides radiatus Gypaetinae Palm-nut Vulture, Gypohierax angolensis Egyptian Vulture, Neophron percnopterus Bearded Vulture / Lammergeier, Gypaetus barbatus Madagascan Serpent-Eagle, Eutriorchis astur Hook-billed Kite, Chondrohierax uncinatus Gray-headed Kite, Leptodon cayanensis ?White-collared Kite, Leptodon forbesi Swallow-tailed Kite, Elanoides forficatus European Honey-Buzzard, Pernis apivorus Perninae Philippine Honey-Buzzard, Pernis steerei Oriental Honey-Buzzard / Crested Honey-Buzzard, Pernis ptilorhynchus Barred Honey-Buzzard, Pernis celebensis Black-breasted Buzzard, Hamirostra melanosternon Square-tailed Kite, Lophoictinia isura Long-tailed Honey-Buzzard, Henicopernis longicauda Black Honey-Buzzard, Henicopernis infuscatus ?Black Baza, Aviceda leuphotes ?African Cuckoo-Hawk, Aviceda cuculoides ?Madagascan Cuckoo-Hawk, Aviceda madagascariensis ?Jerdon’s Baza, Aviceda jerdoni Pacific Baza, Aviceda subcristata Red-headed Vulture, Sarcogyps calvus White-headed Vulture, Trigonoceps occipitalis Cinereous Vulture, Aegypius monachus Lappet-faced Vulture, Torgos tracheliotos Gypinae Hooded Vulture, Necrosyrtes monachus White-backed Vulture, Gyps africanus White-rumped Vulture, Gyps bengalensis Himalayan
    [Show full text]
  • Phylogeny, Historical Biogeography and the Evolution of Migration in Accipitrid Birds of Prey (Aves: Accipitriformes)
    Ornis Hungarica 2014. 22(1): 15–35. DOI: 10.2478/orhu-2014-0008 Phylogeny, historical biogeography and the evolution of migration in accipitrid birds of prey (Aves: Accipitriformes) Jenő nagy1 & Jácint tökölyi2* Jenő Nagy & Jácint Tökölyi 2014. Phylogeny, historical biogeography and the evolution of mig ration in accipitrid birds of prey (Aves: Accipitriformes). – Ornis Hungarica 22(1): 15–35. Abstract Migration plays a fundamental part in the life of most temperate bird species. The re­ gu lar, large­scale seasonal movements that characterize temperate migration systems appear to have originated in parallel with the postglacial northern expansion of tropical species. Migratoriness is also in- fluenced by a number of ecological factors, such as the ability to survive harsh winters. Hence, understanding the origins and evolution of migration requires integration of the biogeographic history and ecology of birds in a phylogenetic context. We used molecular dating and ancestral state reconstruction to infer the origins and evolu- tionary changes in migratory behavior and ancestral area reconstruction to investigate historical patterns of range evolution in accipitrid birds of prey (Accipitriformes). Migration evolved multiple times in birds of prey, the ear- liest of which occurred in true hawks (Accipitrinae), during the middle Miocene period, according to our analy- ses. In most cases, a tropical ancestral distribution was inferred for the non­migratory ancestors of migratory line- ages. Results from directional evolutionary tests indicate that migration evolved in the tropics and then increased the rate of colonization of temperate habitats, suggesting that temperate species might be descendants of tropi- cal ones that dispersed into these seasonal habitats.
    [Show full text]
  • Skeletal Studies of the Tropical Hawk Harpagus
    Sept., 1937 BIRD LIFE AT TWENTYNINE PALMS 219 fied through field glasses at close range, near the Inn, long after the migration of the Gambels. On March 3? 1935, an immature bird with definitely dark lores was trapped near the Inn. Gambel Sparrow. Zowotrichiu Zeucophrys gambelii. A winter visitant, present in large flocks. Between February 2 and March 27, 1934, 54 individuals were trapped and banded in variousparts of the oasis. Observations were then interrupted, and the date of emigration was not determined; but Gambel Sparrows were no longer present when trapping was resumed on April 24. Dates of arrival for the fall of 1934 were rather late. A single immature was seen October 23, and 2 or 3 individuals October 30. A small flock was reported at the palms November 17. By February 9, 1935, large flocks were present. In April the song was heard continuously, and the last record is of the song heard in the pasture May 6. Fox Sparrow. Passerella ilium, subsp. November 4, 1935, a Fox Sparrow, of the type with gray head and back, was seen feeding in the drifts of fine dust and leaves about the foundations of the cottages and at the bases of the mesquites. A few moments later it was captured by either a Sharp- shinned or a Cooper hawk. Lincoln Sparrow. Melospize Zincolnii, subsp. Was first identified February 25, 1934. From March 6 to April 26, 18 were banded, many repeating consistently. They were caught in a sparrow trap, placed on a tongue of dry ground beside a sedge-filled pool.
    [Show full text]
  • Taxonomía De Las Rapaces Y Las Acuaticas Registran Regularmente Al VRR
    Taxonomía de las Rapaces y las Acuaticas registran regularmente al VRR: Aves del Mundo: Reino: Animalia Animales: Sistemas multicelulares que se nutren por ingestión. Filo: Chordata Cordados: Animales con médula espinal, o cordón nervioso. Subfilo: Vertebrata Vertebrados: Cordados con columna vertebral. Clase: Aves Aves: Vertebrados con plumas. Órdenes: 40 Familias: 233 Generas: 2233 Epecies: 10448 Los órdenes, las familias y las generas siguientes contienen todas de las especies que están observado regularmente en el VRR: Orden Familia VRR: Genera Especie English name Nombre Mexicana PELECANIFORMES PHAETHONTIDAE Phaethon lepturus White-tailed Tropicbird Phaethon aethereus Red-billed Tropicbird Phaethon rubricauda Red-tailed Tropicbird SULIDAE Sula dactylatra Masked Booby Sula granti Nazca Booby Sula nebouxii Blue-footed Booby Sula variegata Peruvian Booby Sula leucogaster. Brown Booby Sula sula Red-footed Booby Morus bassanus Northern Gannet PELECANIDAE x Pelecanus erythrorhynchos American White Pelican Pelícano Americano Pelecanus occidentalis Brown Pelican PHALACROCORACIDAE Phalacrocorax penicillatus Brandt’s Cormorant x Phalacrocorax brasilianus Neotropic Cormorant Cormorán Neotropical x Phalacrocorax auritus Double-crested Cormorant Cormorán Bicrestado Phalacrocorax carbo Great Cormorant Phalacrocorax urile Red-faced Cormorant Phalacrocorax pelagicus Pelagic Cormorant ANHINGIDAE x Anhinga anhinga Anhinga Anhinga FREGATIDAE Fregata magnificens Magnificent Frigatebird Fregata minor Great Frigatebird Fregata ariel Lesser Frigatebird
    [Show full text]
  • A Possible Reason for Mimicry of a Bird-Eating Hawk by an Insect-Eating Kite
    October 1976] General Notes 841 A possible reason for mimicry of a bird-eating hawk by an insect-eating kite.--Amadon (1961, Condor 62: 178) and others have noted that plumagesof adult and immature Rufous-thighed Kites (Harpagus diodon) of eastern South America are like those of adults of the wide-ranging neotropicalBicolored Hawk (Accipiter bicolor), a bird eater. Salvin and Wallace (see Newton 1896, A dictionary of birds, p. 574) suggestedthat the hawk mimicsthe kite so as to avoid recognition by potential prey, much as I later suggested(Willis 1963, Condor 65: 313) that the Zone-tailed Hawk (Buteo albonotatus) mimickedthe Turkey Vulture (Cathartes aura). Amadon pointed out, however,that the older suggestionwas unlikely: the Bicolored Hawk is much more widespreadthan the kite (mimics usually have smaller distributionsthan their models,being restrictedto zoneswhere modelsare common), and immatures of the hawk in some areas do not look like immature kites even where the speciesoccur together. He noted that the direction of mimicry could be the opposite one, perhaps protection for the kite or its nest from predators. After years of watching for the kite during work in moist Amazonianforests, I found oneas I checkeddry forestsfor antbirdsjust north of Colinas,Maranhgo (6 ø S, 44 ø 16' W) on 26 October 1974. The hum of cicadas in the hot scrubland was suddenly interrupted as the kite pouncedon one in the leafy but open top of a flowering tree spared by cut-and-burn farmers. The movementof the kite attracted not only my attention but that of several small tanagers (Nemosia pileata, Hemi- thraupis guira), which started to call at it and flit about through the foliage.
    [Show full text]
  • Panama's Canopy Tower and El Valle's Canopy Lodge
    FIELD REPORT – Panama’s Canopy Tower and El Valle’s Canopy Lodge January 4-16, 2019 Orange-bellied Trogon © Ruthie Stearns Blue Cotinga © Dave Taliaferro Geoffroy’s Tamarin © Don Pendleton Ocellated Antbird © Carlos Bethancourt White-tipped Sicklebill © Jeri Langham Prepared by Jeri M. Langham VICTOR EMANUEL NATURE TOURS, INC. 2525 WALLINGWOOD DR., AUSTIN, TX 78746 Phone: 512-328-5221 or 800-328-8368 / Fax: 512-328-2919 [email protected] / www.ventbird.com Myriads of magazine articles have touted Panama’s incredible Canopy Tower, a former U.S. military radar tower transformed by Raúl Arias de Para when the U.S. relinquished control of the Panama Canal Zone. It sits atop 900-foot Semaphore Hill overlooking Soberania National Park. While its rooms are rather spartan, the food is Panama’s Canopy Tower © Ruthie Stearns excellent and the opportunity to view birds at dawn from the 360º rooftop Observation Deck above the treetops is outstanding. Twenty minutes away is the start of the famous Pipeline Road, possibly one of the best birding roads in Central and South America. From our base, daily birding outings are made to various locations in Central Panama, which vary from the primary forest around the tower, to huge mudflats near Panama City and, finally, to cool Cerro Azul and Cerro Jefe forest. An enticing example of what awaits visitors to this marvelous birding paradise can be found in excerpts taken from the Journal I write during every tour and later e- mail to participants. These are taken from my 17-page, January 2019 Journal. On our first day at Canopy Tower, with 5 of the 8 participants having arrived, we were touring the Observation Deck on top of Canopy Tower when Ruthie looked up and called my attention to a bird flying in our direction...it was a Black Hawk-Eagle! I called down to others on the floor below and we watched it disappear into the distant clouds.
    [Show full text]