Avian ecological succession in the Amazon: A long-term case study following experimental deforestation

Approximately 20% of the Brazilian Amazon has now been deforested, and the Amazon is currently experiencing the highest rates of deforestation in a decade, leading to large-scale land-use changes. Roads have consistently been implicated as drivers of ongoing Amazon deforestation and may act as corridors to facilitate species invasions. Long-term data, however, are necessary to determine how ecological succession alters avian communities following deforestation and whether established roads lead to a constant influx of new species. We used data across nearly 40 years from a large-scale deforestation experiment in the central Amazon to examine the avian colonization process in a spatial and temporal framework, considering the role that roads may play in facilitating colonization. Since 1979, 139 species that are not part of the original forest avifauna have been recorded, including more secondary forest species than expected based on the regional species pool. Among the 35 species considered to have colonized and become established, a disproportionate number were secondary forest birds (63%), almost all of which first appeared during the 1980s. These new residents comprise about 13% of the current community of permanent residents. Widespread generalists associated with secondary forest colonized quickly following deforestation, with few new species added after the first decade, despite a stable road connection. Few species associated with riverine forest or specialized habitats colonized, despite road connection to their preferred source habitat. Colonizing species remained restricted to anthropogenic habitats and did not infiltrate old-growth forests nor displace forest birds. Deforestation and expansion of road networks into terra firme rainforest will continue to create degraded anthropogenic habitat. Even so, the initial pulse of colonization by nonprimary forest bird species was not the beginning of a protracted series of invasions in this study, and the process appears to be reversible by forest succession

Climate trends and behavior of a model Amazonian terrestrial insectivore, black-faced antthrush, indicate adjustment to hot and dry conditions

Rainforest loss threatens terrestrial insectivorous birds throughout the world\u27s tropics. Recent evidence suggests these birds are declining in undisturbed Amazonian rainforest, possibly due to climate change. Here, we first asked whether Amazonian terrestrial insectivorous birds were exposed to increasingly extreme ambient conditions using 38 years of climate data. We found long-term trends in temperature and precipitation at our study site, especially in the dry season, which was ~1.3°C hotter and 21% drier in 2019 than in 1981. Second, to test whether birds actively avoided hot and dry conditions, we used field sensors to identify periodic intervals of ambient extremes and prospective microclimate refugia within undisturbed rainforest from 2017 to 2019. Simultaneously, we examined how tagged black-faced antthrushes Formicarius analis used this space. We collected \u3e 1.3 million field measurements quantifying ambient conditions in the forest understory, including along elevation gradients. For 11 birds, we obtained GPS data to test whether birds adjusted their cover usage using variation in GPS fix success (n = 2724) as a proxy and elevation using successful locations (n = 640) across seasonal and daily cycles. For four additional birds, we collected \u3e 180 000 light and temperature readings to assess exposure. Field measurements in the modern landscape revealed that temperature was higher in the dry season and highest on plateaus. Thus, low-lying areas were relatively buffered, providing microclimate refugia during hot afternoons in the dry season. At those times, birds apparently entered cover and shifted downslope. Because climate change intensifies the hot, dry conditions that antthrushes seemingly avoid, our results are consistent with the hypothesis that climate change decreases habitat quality for this species. If other terrestrial insectivores are similarly sensitive, climate-induced changes to otherwise intact rainforest may be related to their recent declines

SPACE USE, DIURNAL MOVEMENT, AND ROOSTING OF A VARIEGATED ANTPITTA (GRALLARIA VARIA) IN CENTRAL AMAZONIA

Abstract ∙ The Variegated Antpitta (Grallaria varia) is the largest member of the terrestrial insectivores guild within its Amazonian range. Despite the bird’s large size and loud vocalizations, however, basic aspects of G. varia’s natural history remain poorly understood. In this study, we conducted intensive tracking of one individual in a nature reserve in the state of Amazonas, Brazil, describing ‐ for the first time with radio telemetry ‐ space use, movement patterns, and roosting sites of G. varia. Over the course of 50 days in July and August 2017, the tracked individual moved slowly through a home range covering ∼ 17.6 ha and was generally quiet, singing at only two of 68 locations that together comprised its home range. Of five roosting sites, four included visual observations where the bird slept 3–7 (mean 4.5) m aboveground in relatively open mid‐story trees. We found no evidence of commutes to regular roost sites as all nocturnal locations were located close (mean 59.6 m, range 24–101 m) to the most recent diurnal locations. Slow movements on the ground without commutes to foraging or roosting sites help explain low capture rates in mist nets for this species. Our telemetry data suggest that G. varia home range may be larger than previously estimated in studies that relied heavily on bird vocalizations to determine area needs, though such methods may yield adequate results at times when birds vocalize frequently. Regardless, large area requirements help to explain the disappearance of G. varia documented in tropical forest fragments.Resumo ∙ Uso do espaço, movimento diurno e áreas de dormitório do tovacuçu (Grallaria varia) na Amazônia Central O tovacuçu (Grallaria varia) é o maior dos insetívoros terrestres dentro da sua distribuição na Amazônia. Apesar do seu tamanho e vocalizações altas, alguns aspectos básicos da história natural de G. varia ainda são pouco compreendidos. Neste estudo, nós realizamos o rastreamento intensivo de um indivíduo em uma reserva natural no estado do Amazonas, Brasil, descrevendo ‐ pela primeira vez com rádio‐telemetria ‐ o uso do espaço, padrões de movimento, e poleiros noturnos de G. varia. Durante 50 dias em julho e agosto de 2017, este indivíduo de G. varia moveu‐se lentamente na sua área de vida (cobrindo aproximadamente 17,9 ha) geralmente em silêncio, cantando somente em duas das 68 localizações que, juntas, formam sua área de vida. Dos cinco poleiros noturnos encontrados, quatro incluíram observações visuais onde a ave dormiu de 3 a 7 (média 4,5) m acima do solo, em um ambiente relativamente aberto no sub‐bosque. Não encontramos evidência de viagens regulares para poleiros usados a noite, uma vez que todos os poleiros noturnos estavam perto (média 59,6; amplitude 24–101 m) das localizações diurnas mais recentes do indivíduo. Mo‐vimentos lentos no solo, sem deslocamentos para sítios de forrageamento ou poleiros noturnos, ajudam a explicar a baixa taxa de captura em redes‐de‐neblina para esta espécie. Os dados de telemetria sugerem que a área de vida de G. varia é maior do que se estimava previamente em estudos que se baseavam principalmente em vocalizações para determinar o seu tamanho, embora tais métodos possam produzir resultados adequados quando as aves vocalizam com frequência. O requerimento de grandes áreas de vida ajuda a explicar o desaparecimento de registros de G. varia em fragmentos de floresta tropical

Factors Influencing Extended Periods of Inactivity in Barred Owls

This study aimed to understand the factors influencing extended periods of inactivity in barred owls. We analyzed environmental factors, such as temperature and seasonal variations, along with individual characteristics like sex, to better understand their activity patterns. The findings could aid in developing more effective management strategies for barred owls through targeted removal programs, ultimately improving conservation efforts for the threatened northern spotted owl

Climate change aggravates bird mortality in pristine tropical forests

Stable understory microclimates within undisturbed rainforests are often considered refugia against climate change. However, this assumption contrasts with emerging evidence of Neotropical bird population declines in intact rainforests. We assessed the vulnerability of resident rainforest birds to climatic variability, focusing on dry season severity characterized by hotter temperatures and reduced rainfall. Analyzing 4264 individual bird captures over 27 years, we found that harsher Amazonian dry seasons significantly reduced apparent survival for 24 of 29 species, with longer-lived species being more strongly affected. Our model predicted that a 1°C increase in average dry season temperature would reduce the mean apparent survival of the understory bird community by 63%. These findings directly link climate change to declining bird survival in the Amazon, challenging the notion that pristine rainforests can fully protect their biodiversity under increasingly severe climate conditions

Avian ecological succession in the Amazon: A long-term case study following experimental deforestation

Approximately 20% of the Brazilian Amazon has now been deforested, and the Amazon is currently experiencing the highest rates of deforestation in a decade, leading to large-scale land-use changes. Roads have consistently been implicated as drivers of ongoing Amazon deforestation and may act as corridors to facilitate species invasions. Long-term data, however, are necessary to determine how ecological succession alters avian communities following deforestation and whether established roads lead to a constant influx of new species. We used data across nearly 40 years from a large-scale deforestation experiment in the central Amazon to examine the avian colonization process in a spatial and temporal framework, considering the role that roads may play in facilitating colonization. Since 1979, 139 species that are not part of the original forest avifauna have been recorded, including more secondary forest species than expected based on the regional species pool. Among the 35 species considered to have colonized and become established, a disproportionate number were secondary forest birds (63%), almost all of which first appeared during the 1980s. These new residents comprise about 13% of the current community of permanent residents. Widespread generalists associated with secondary forest colonized quickly following deforestation, with few new species added after the first decade, despite a stable road connection. Few species associated with riverine forest or specialized habitats colonized, despite road connection to their preferred source habitat. Colonizing species remained restricted to anthropogenic habitats and did not infiltrate old-growth forests nor displace forest birds. Deforestation and expansion of road networks into terra firme rainforest will continue to create degraded anthropogenic habitat. Even so, the initial pulse of colonization by nonprimary forest bird species was not the beginning of a protracted series of invasions in this study, and the process appears to be reversible by forest succession. © 2019 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd

Twenty years later: An update to the birds of the biological dynamics of forest fragments project, Amazonas, Brazil

Although species lists from throughout Amazonia have become available, relatively complete inventories based on longterm work remain rare. Longitudinal comparisons at well-studied sites provide the best opportunities for describing communities and identifying changes in regional avifaunas. Within central Amazonia, no region has received as much consistent ornithological coverage as the terra firme forests north of Manaus, Brazil, at the Biological Dynamics of Forest Fragments Project (BDFFP). Here we provide an updated list of the area, including notes on all species added between 1997 and 2017. We recorded 21 species new for the site, most of which (>75%) are birds that prefer várzea or second-growth forest. This brings the cumulative BDFFP list up to 409 species, the majority (66%) of which inhabit primary terra firme forest. Together, this confirms that the regional terra firme community had been well-characterized by the 1990s, and that species additions to the list over the last 20 years are consistent with a changing landscape as urbanization, agriculture, and second-growth spread from Manaus. The final product continues to represent the most complete avian inventory for a single site in all of lowland Amazonia. © 2017, Sociedade Brasileira de Ornitologia. All rights reserved

Dataset: Thermoregulation of understory birds in lowland Amazonia

<p>Understanding the capacity for thermoregulation is critical for predicting organismal vulnerability to climate change, especially in lowland tropical rainforests, where warming conditions combine with high humidity and limited elevational or latitudinal refugia. Here, I focused on nine species of ground-foraging insectivorous birds in the genus <em>Myrmoderus</em>, <em>Myrmornis</em>, <em>Hylopezus</em>, <em>Myrmothera</em>, <em>Formicarius</em>, <em>and Sclerurus</em>—sensitive forest specialists characterized by recently documented population declines in both disturbed and undisturbed forests. Using high-resolution data from loggers deployed on birds and their environment, I examined whether and how birds used thermoregulation and whether ambient water provided cooling opportunities. Variation in the rate of temperature change over the diel cycle suggested that all species employed behavioral and physiological thermoregulation, but some patterns differed by species' phylogenetic relatedness. All species warmed hours before their environment at sunrise, then experienced lower temperature increases at midday relative to the ambient thermal flux. These morning warming periods peaked around sunrise for all but <em>Sclerurus rufigularis</em> and constituted the diel temperature change maxima for five of the nine species. Six species exhibited pronounced oscillations in temperature change consistent with regular bathing around sunset, possibly for thermoregulatory or other purposes. This oscillation was the most prominent feature in the diel thermal flux for all three <em>Sclerurus</em> species and, to a lesser extent, for <em>Myrmoderus ferrugineus</em>, <em>Myrmornis torquata</em>, and <em>Myrmothera campanisona</em>. Local rainfall reduced ambient temperatures, and birds experienced stronger cooling in the wet season and with higher rainfall intensity. However, rain-induced cooling events were markedly absent in all three <em>Sclerurus </em>spp. These results highlight the fundamental role of water in avian thermoregulation and suggest that terrestrial insectivores attempt to maintain thermal homeostasis throughout the diel cycle. The observed thermoregulatory behaviors highlight a potentially critical aspect of their vulnerability—thermal regimes are profoundly altered by forest disturbance, climate change, and their combination.</p><p>Funding provided by: National Science Foundation<br>Crossref Funder Registry ID: https://ror.org/021nxhr62<br>Award Number: LTREB 0545491</p><p>Funding provided by: National Science Foundation<br>Crossref Funder Registry ID: https://ror.org/021nxhr62<br>Award Number: LTREB 1257340</p><p>Funding provided by: United States Department of Agriculture<br>Crossref Funder Registry ID: https://ror.org/01na82s61<br>Award Number: 94098</p><p>Funding provided by: United States Department of Agriculture<br>Crossref Funder Registry ID: https://ror.org/01na82s61<br>Award Number: 94327</p><p>Funding provided by: Smithsonian Tropical Research Institute<br>Crossref Funder Registry ID: https://ror.org/02ptchg16<br>Award Number: </p><p>Funding provided by: Neotropical Bird Club<br>Crossref Funder Registry ID: https://ror.org/02881dh04<br>Award Number: </p><p>Funding provided by: American Philosophical Society<br>Crossref Funder Registry ID: https://ror.org/04egvf158<br>Award Number: </p><p>Funding provided by: American Ornithological Society<br>Crossref Funder Registry ID: https://ror.org/03wy7n216<br>Award Number: </p><p>Funding provided by: Animal Behavior Society<br>Crossref Funder Registry ID: https://ror.org/031nh9x49<br>Award Number: </p><p>Funding provided by: Wilson Ornithological Society<br>Crossref Funder Registry ID: https://ror.org/03cqty937<br>Award Number: </p&gt