Your search keyword '"Zuria I"' showing total 11 results

1. Revisión del conflicto entre los humanos y las serpientes en México: origen, mitigación y perspectivas

Author

Fernández–Badillo, L., primary, Zuria, I., additional, Sigala–Rodríguez, J., additional, Sánchez–Rojas, G., additional, and Castañeda–Gaytán, G., additional

Published

2021

2. Avian haemosporidians at three environmentally contrasting urban greenspaces

Author

Carbó-Ramírez, P., primary, Zuria, I., additional, Schaefer, H.M., additional, and Santiago-Alarcon, D., additional

Published

2017

3. Metal concentration in honeybees along an urbanization gradient in Central Mexico.

Author

Hernández-Medina ME, Montiel Pimentel JV, Castellanos I, Zuria I, Sánchez-Rojas G, and Gaytán Oyarzun JC

Subjects

Animals, Bees, Mexico, Metals analysis, Environmental Pollutants analysis, Cities, Urbanization, Environmental Monitoring

Abstract

Urbanization is rapidly increasing worldwide, leading to rising levels of pollution, one of the major drivers of environmental change; yet little is known about the relationship between urbanization intensity and pollution levels in pollinator taxa. Toxic metals are among the most common contaminants in urban environments, but few data exist on their presence in the flora and fauna of cities in Latin America, one of the world's most urbanized and biologically diverse regions. In this study, we used an urban-rural gradient approach to analyze the relationship between the concentrations of eleven metals present in adult honeybees (Apis mellifera) and the degree of urbanization within twelve landscapes in the metropolitan area of Pachuca, Hidalgo, which forms part of the megalopolis of Mexico City. Metal concentrations were compared with previously reported values contrasting honeybees from urban and rural areas after standardizing urbanization levels among published reports. The concentrations of Ag, Cr, Cu, and Zn in honeybees increased significantly with the degree of urbanization. Urbanization was not found to influence the levels of Al, Ba, Cd, Mn, and Sr in honeybees. The maximum concentrations of six metals in our urban sites (Al, Ba, Cd, Cu, Mn, and Sr) were higher than the maximum values reported for bees in other urban areas. The concentrations of two metals measured in our study (Cr and Zn) were within the range of values previously published for urban areas. Compared to other studies, we did not detect Pb in the body of honeybees. We conclude that the concentrations of Ag, Cr, Cu, and Zn present in honeybees are a quantitative reflection of the degree of urbanization in central Mexico. Our results highlight the need to monitor metal emission sources in this and other areas and investigate their effects on bees and other pollinator taxa., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2025

4. What do we know (and need to know) about the role of urban habitats as ecological traps? Systematic review and meta-analysis.

Author

Zuñiga-Palacios J, Zuria I, Castellanos I, Lara C, and Sánchez-Rojas G

Subjects

Animals, Europe, North America, Urbanization, Biodiversity, Ecosystem

Abstract

Urban areas represent a spectrum that goes from being safe habitats for biodiversity (i.e., habitats more or equally preferred, without costs to fitness) to being ecological traps (i.e., habitats more or equally preferred, but with costs to fitness). Given the imminent urban expansion, it is valuable to assess how biodiversity is responding to urbanization and thus generate timely conservation strategies. We systematically review the urban ecology literature to analyze how much do we know about the role of urban areas as ecological traps. Using a formal meta-analytical approach, we test whether urban areas are functioning as ecological traps or as safe habitats for different taxonomic groups. We generated a data set of 646 effect sizes of different measures of habitat preferences and fitness from 38 papers published between 1985 and 2020. The data set covered 15 countries and 47 urban areas from four continents, including 29 animal species. Studies from North America and Europe were best represented, and birds were the most studied taxa. Overall, the meta-analysis suggests that urbanized habitats are functioning more as safe sites than as ecological traps, mainly for certain species with characteristics that have allowed them to adapt well to urban areas. That is, many of the studied species prefer more urbanized habitats over other less urbanized sites, and their fitness is not modified, or it is even increased. However, there was high heterogeneity among studies. We also performed meta-regressions to identify variables accounting for this heterogeneity across studies and we demonstrate that outcomes may depend on methodological aspects of studies, such as study design or the approach used to measure habitat preference and fitness. More research is needed for poorly studied regions and on a wider range of species before generalizations can be made on the role of urban areas for biodiversity conservation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

5. Correlates of bird collisions with buildings across three North American countries.

Author

Elmore JA, Hager SB, Cosentino BJ, O'Connell TJ, Riding CS, Anderson ML, Bakermans MH, Boves TJ, Brandes D, Butler EM, Butler MW, Cagle NL, Calderón-Parra R, Capparella AP, Chen A, Cipollini K, Conkey AAT, Contreras TA, Cooper RI, Corbin CE, Curry RL, Dosch JJ, Dyson KL, Fraser EE, Furbush RA, Hagemeyer NDG, Hopfensperger KN, Klem D Jr, Lago EA, Lahey AS, Machtans CS, Madosky JM, Maness TJ, McKay KJ, Menke SB, Ocampo-Peñuela N, Ortega-Álvarez R, Pitt AL, Puga-Caballero A, Quinn JE, Roth AM, Schmitz RT, Schnurr JL, Simmons ME, Smith AD, Varian-Ramos CW, Walters EL, Walters LA, Weir JT, Winnett-Murray K, Zuria I, Vigliotti J, and Loss SR

Subjects

Animals, Canada, Mexico, North America, United States, Conservation of Natural Resources, Songbirds

Abstract

Collisions with buildings cause up to 1 billion bird fatalities annually in the United States and Canada. However, efforts to reduce collisions would benefit from studies conducted at large spatial scales across multiple study sites with standardized methods and consideration of species- and life-history-related variation and correlates of collisions. We addressed these research needs through coordinated collection of data on bird collisions with buildings at sites in the United States (35), Canada (3), and Mexico (2). We collected all carcasses and identified species. After removing records for unidentified carcasses, species lacking distribution-wide population estimates, and species with distributions overlapping fewer than 10 sites, we retained 269 carcasses of 64 species for analysis. We estimated collision vulnerability for 40 bird species with ≥2 fatalities based on their North American population abundance, distribution overlap in study sites, and sampling effort. Of 10 species we identified as most vulnerable to collisions, some have been identified previously (e.g., Black-throated Blue Warbler [Setophaga caerulescens]), whereas others emerged for the first time (e.g., White-breasted Nuthatch [Sitta carolinensis]), possibly because we used a more standardized sampling approach than past studies. Building size and glass area were positively associated with number of collisions for 5 of 8 species with enough observations to analyze independently. Vegetation around buildings influenced collisions for only 1 of those 8 species (Swainson's Thrush [Catharus ustulatus]). Life history predicted collisions; numbers of collisions were greatest for migratory, insectivorous, and woodland-inhabiting species. Our results provide new insight into the species most vulnerable to building collisions, making them potentially in greatest need of conservation attention to reduce collisions and into species- and life-history-related variation and correlates of building collisions, information that can help refine collision management., (© 2020 Society for Conservation Biology.)

Published

2021

6. The urban contrast: A nationwide assessment of avian diversity in Mexican cities.

Author

MacGregor-Fors I, Escobar-Ibáñez JF, Schondube JE, Zuria I, Ortega-Álvarez R, Sosa-López JR, Ruvalcaba-Ortega I, Almazán-Núñez RC, Arellano-Delgado M, Arriaga-Weiss SL, Calvo A, Chapa-Vargas L, Silvestre Lara PX, García-Chávez JH, Hinojosa O, Koller-González JM, Lara C, de Aquino SL, López-Santillán D, Maya-Elizarrarás E, Medina JP, de Jesús Moreno Navarro J, Murillo García LE, Orozco L, Pineda-López R, Rodríguez-Ruíz ER, Tinajero Hernández JR, Torres Abán LB, and Vega-Rivera JH

Subjects

Animals, Cities, Ecosystem, Mexico, Urbanization, Biodiversity, Birds

Abstract

In this study we focused on urban bird diversity across Mexico, a megadiverse country, with a special focus on the relative role of urban greenspaces and heavily-built sites. We considered a country-wide approach, including 24 different sized Mexican cities. Our aims were to describe the urban bird diversity in focal cities and further assess the relationships between it and the biogeographic region where cities are located, their size, elevation, and annual rainfall. Additionally, we evaluated differences in the functional composition of bird communities in both studied urban scenarios (i.e., urban greenspaces, heavily-built sites). Our results confirm that urban greenspaces are home to a large proportion of species when contrasted with heavily-built sites. While total species richness and species richness of greenspaces were related with the cities' biogeographic region -with higher species richness in the Neotropical region and Transition Zone-, the relationship did not hold true in heavily-built sites. We found that annual rainfall was negatively related to bird richness in heavily-built sites, suggesting that species from arid systems can be more tolerant to urbanization. Regarding the bird functional group assessment, results show a clear differentiation between the functional groups of greenspaces and those of heavily-built sites, with granivores and omnivores associated with the latter and a highly diverse array of functional groups associated with urban greenspaces., Competing Interests: Declaration of competing interest The authors declare that there is no conflict of interest., (Copyright © 2020. Published by Elsevier B.V.)

Published

2021

7. Reduced thermal variability in cities and its impact on honey bee thermal tolerance.

Author

Sánchez-Echeverría K, Castellanos I, Mendoza-Cuenca L, Zuria I, and Sánchez-Rojas G

Abstract

Urbanization is one of the most significant land cover transformations, and while climate alteration is one of its most cited ecological consequences we have very limited knowledge on its effect on species' thermal responses. We investigated whether changes in environmental thermal variability caused by urbanization influence thermal tolerance in honey bees ( Apis mellifera ) in a semi-arid city in central Mexico. Ambient environmental temperature and honey bee thermal tolerance were compared in urban and rural sites. Ambient temperature variability decreased with urbanization due to significantly higher nighttime temperatures in urban compared to rural sites and not from differences in maximum daily temperatures. Honey bee thermal tolerance breadth [critical thermal maxima (CT max )-critical thermal minima (CT min )] was narrower for urban bees as a result of differences in cold tolerance, with urban individuals having significantly higher CT min than rural individuals, and CT max not differing among urban and rural individuals. Honey bee body size was not correlated to thermal tolerance, and body size did not differ between urban and rural individuals. We found that honey bees' cold tolerance is modified through acclimation. Our results show that differences in thermal variability along small spatial scales such as urban-rural gradients can influence species' thermal tolerance breadths., Competing Interests: The authors declare there are no competing interests.

Published

2019

8. The role of singing style in song adjustments to fluctuating sound conditions: A comparative study on Mexican birds.

Author

Bermúdez-Cuamatzin E, López-Hernández M, Campbell J, Zuria I, and Slabbekoorn H

Subjects

Acoustics, Animals, Environment, Mexico, Birds physiology, Noise, Sound, Vocalization, Animal physiology

Abstract

Many bird species adjust their songs to noisy urban conditions by which they reduce masking and counteract the detrimental impact on signal efficiency. Different species vary in their response to level fluctuations of ambient noise, but it remains unclear why they vary. Here, we investigated whether noise-dependent flexibility may relate to singing style and signal function of the flexible acoustic trait. Species with highly variable songs may generally be more flexible and strongly repetitive singers may be more limited to stray from their stringent patterns. We exposed males of four passerine species with contrasting singing styles (repertoire size, immediate or eventual variety singing and syllable diversity) to three experimental sound conditions: 1) continuous urban noise; 2) intermittent white noise and 3) conspecific song playback. We found no spectral or temporal changes in response to experimental noise exposure in any of the four species, but significant temporal adjustment to conspecific playback in one of them. We argue that the consistency in song frequency and timing may have signal value, independent of singing style, and therefore be an explanation for the general lack of noise-dependent flexibility in the four species of the current study., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

9. Deforestation Impacts on Bat Functional Diversity in Tropical Landscapes.

Author

García-Morales R, Moreno CE, Badano EI, Zuria I, Galindo-González J, Rojas-Martínez AE, and Ávila-Gómez ES

Subjects

Animals, Biodiversity, Conservation of Natural Resources, Ecosystem, Forests, Mexico, Seasons, Trees physiology, Tropical Climate, Chiroptera growth & development, Chiroptera physiology

Abstract

Functional diversity is the variability in the functional roles carried out by species within ecosystems. Changes in the environment can affect this component of biodiversity and can, in turn, affect different processes, including some ecosystem services. This study aimed to determine the effect of forest loss on species richness, abundance and functional diversity of Neotropical bats. To this end, we identified six landscapes with increasing loss of forest cover in the Huasteca region of the state of Hidalgo, Mexico. We captured bats in each landscape using mist nets, and calculated functional diversity indices (functional richness and functional evenness) along with species richness and abundance. We analyzed these measures in terms of percent forest cover. We captured 906 bats (Phyllostomidae and Mormoopidae), including 10 genera and 12 species. Species richness, abundance and functional richness per night are positively related with forest cover. Generalized linear models show that species richness, abundance and functional richness per night are significantly related with forest cover, while seasonality had an effect on abundance and functional richness. Neither forest cover nor season had a significant effect on functional evenness. All these findings were consistent across three spatial scales (1, 3 and 5 km radius around sampling sites). The decrease in species, abundance and functional richness of bats with forest loss may have implications for the ecological processes they carry out such as seed dispersal, pollination and insect predation, among others., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

10. Beta Diversity in a Highly Heterogeneous Area: Disentangling Species and Taxonomic Dissimilarity for Terrestrial Vertebrates.

Author

Calderón-Patrón JM, Goyenechea I, Ortiz-Pulido R, Castillo-Cerón J, Manriquez N, Ramírez-Bautista A, Rojas-Martínez AE, Sánchez-Rojas G, Zuria I, and Moreno CE

Subjects

Amphibians classification, Animals, Birds classification, Databases, Factual, Ecosystem, Forests, Mammals classification, Mexico, Reptiles classification, Biodiversity, Vertebrates classification

Abstract

Quantifying differences in species composition among communities provides important information related to the distribution, conservation and management of biodiversity, especially when two components are recognized: dissimilarity due to turnover, and dissimilarity due to richness differences. The ecoregions in central Mexico, within the Mexican Transition Zone, have outstanding environmental heterogeneity and harbor huge biological richness, besides differences in the origin of the biota. Therefore, biodiversity studies in this area require the use of complementary measures to achieve appropriate information that may help in the design of conservation strategies. In this work we analyze the dissimilarity of terrestrial vertebrates, and the components of turnover and richness differences, among six ecoregions in the state of Hidalgo, central Mexico. We follow two approaches: one based on species level dissimilarity, and the second on taxonomic dissimilarity. We used databases from the project "Biodiversity in the state of Hidalgo". Our results indicate that species dissimilarity is higher than taxonomic dissimilarity, and that turnover contributes more than richness differences, both for species and taxonomic total dissimilarity. Moreover, total dissimilarity, turnover dissimilarity and the dissimilarity due to richness differences were positively related in the four vertebrate groups. Reptiles had the highest values of dissimilarity, followed by mammals, amphibians and birds. For reptiles, birds, and mammals, species turnover was the most important component, while richness differences had a higher contribution for amphibians. The highest values of dissimilarity occurred between environmentally contrasting ecoregions (i.e., tropical and temperate forests), which suggests that environmental heterogeneity and differences in the origin of biotas are key factors driving beta diversity of terrestrial vertebrates among ecoregions in this complex area.

Published

2016

11. Vertebrate dissimilarity due to turnover and richness differences in a highly beta-diverse region: the role of spatial grain size, dispersal ability and distance.

Author

Calderón-Patrón JM, Moreno CE, Pineda-López R, Sánchez-Rojas G, and Zuria I

Subjects

Animals, Environment, Mexico, Spatial Analysis, Biodiversity, Ecosystem, Vertebrates

Abstract

We explore the influence of spatial grain size, dispersal ability, and geographic distance on the patterns of species dissimilarity of terrestrial vertebrates, separating the dissimilarity explained by species replacement (turnover) from that resulting from richness differences. With data for 905 species of terrestrial vertebrates distributed in the Isthmus of Tehuantepec, classified into five groups according to their taxonomy and dispersal ability, we calculated total dissimilarity and its additive partitioning as two components: dissimilarity derived from turnover and dissimilarity derived from richness differences. These indices were compared using fine (10 x 10 km), intermediate (20 x 20 km) and coarse (40 x 40 km) grain grids, and were tested for any correlations with geographic distance. The results showed that total dissimilarity is high for the terrestrial vertebrates in this region. Total dissimilarity, and dissimilarity due to turnover are correlated with geographic distance, and the patterns are clearer when the grain is fine, which is consistent with the distance-decay pattern of similarity. For all terrestrial vertebrates tested on the Isthmus of Tehuantepec both the dissimilarity derived from turnover and the dissimilarity resulting from richness differences make important contributions to total dissimilarity, and dispersal ability does not seem to influence the dissimilarity patterns. These findings support the idea that conservation efforts in this region require a system of interconnected protected areas that embrace the environmental, climatic and biogeographic heterogeneity of the area.

Published

2013