Your search keyword '"Ruvalcaba-Ortega I"' showing total 7 results

1. Seasonal and ecological associations of the avifauna from Sierra San Antonio-Peña Nevada, Zaragoza, Nuevo León, México

Author

Ruvalcaba-Ortega, I., González-Rojas, J. I., Contreras-Balderas, A. J., and ALINA OLALLA KERSTUPP

2. Riparian bird community from the Rio Sabinas, Coahuila, Mexico

Author

Ruvalcaba-Ortega, I., Jose I. González-Rojas, and Castillo, R. C. -D

3. Winter diet of Burrowing Owls in the Llano La Soledad, Galeana, Nuevo León, México.

Author

Gonzalez Rojas JI, Cruz Nieto MA, Guzmán Velasco A, Ruvalcaba-Ortega I, Olalla-Kerstupp A, and Ruiz-Ayma G

Subjects

Animals, Mexico, Seasons, Diet, Mammals, Strigiformes

Abstract

The dietary niche breadth of the Burrowing Owl was determined ( Athene cunicularia Molina, 1782) in Llano La Soledad, Galeana, Nuevo Leon in northern Mexico, by considering prey type, numerical percentage, weight, weight percentage, frequency of occurrence percentage, and IRI percentage. The study compared data from three winters (2002-2003, 2003-2004, 2004-2005) by analyzing 358 pellets, identifying 850 prey items. Invertebrates constituted 90% of prey items, which mostly included insects (85%); beetles were the most common insects found in pellets (70%). Vertebrates made up 84% of consumed weight, of which 83% were mammals. Most of the mammals were cricetid rodents (41%). Niche breadth based on the numerical and weight percentage confirmed the Burrowing Owl as a generalist species with mean values per year ranging between 0.65 and 0.82. Additionally, there was a strong association between the weight of rodent species in winter. This association was mainly driven by changes in composition and frequency of these prey species during the second winter, probably caused by high annual rainfall. The second season also showed a statistically significant narrower niche (Ro = 0.96) and the smallest overlap (0.45 vs . 0.76) among the three winters., Competing Interests: The authors declare that they have no competing interests., (© 2022 Gonzalez Rojas et al.)

Published

2022

4. 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

5. High Prevalence of Avian Influenza Virus Among Wild Waterbirds and Land Birds of Mexico.

Author

Cerda-Armijo C, de León MB, Ruvalcaba-Ortega I, Chablé-Santos J, Canales-Del-Castillo R, Peñuelas-Urquides K, Rivera-Morales LG, Menchaca-Rodríguez G, Camacho-Moll ME, Contreras-Cordero JF, Guzmán-Velasco A, and González-Rojas JI

Subjects

Animal Migration, Animals, Influenza in Birds virology, Mexico epidemiology, Prevalence, Reverse Transcriptase Polymerase Chain Reaction veterinary, Birds, Influenza A virus isolation & purification, Influenza in Birds epidemiology

Abstract

Aquatic wild birds, especially waterfowl, have been long considered the main reservoirs of the avian influenza A virus; however, recent surveys have found an important prevalence of these viruses among land birds as well. Migration has been suggested as an important factor in the avian influenza virus dissemination. We aimed to estimate the prevalence of influenza A viruses in wild birds (waterbirds and land birds; resident and migratory) in eastern Mexico, where the three main North American migration flyways converge and where there was no previous information on this subject. We detected influenza with reverse transcription coupled with a PCR approach. Of the 534 birds sampled between 2010 and 2012, we detected the influenza A virus in a high proportion of birds (39%). Prevalence was particularly high in land birds (49%) when compared to aquatic birds (26%); there was no difference in overall prevalence between resident (39%) and migratory birds (39%). The high prevalence of the avian influenza virus in land birds was noteworthy in the innermost sampling areas in northern Mexico (Coahuila [82%] and Nuevo Leon [43%]).

Published

2020

6. Adaptive genetic diversity and evidence of population genetic structure in the endangered Sierra Madre Sparrow (Xenospiza baileyi).

Author

Ham-Dueñas JG, Canales-Del-Castillo R, Voelker G, Ruvalcaba-Ortega I, Aguirre-Calderón CE, and González-Rojas JI

Subjects

Animals, Biological Evolution, Conservation of Natural Resources methods, Ecosystem, Endangered Species, Genetics, Population methods, Microsatellite Repeats genetics, Phylogeny, Polymorphism, Genetic genetics, Sparrows genetics

Abstract

The magnitude and distribution of genetic diversity through space and time can provide useful information relating to evolutionary potential and conservation status in threatened species. In assessing genetic diversity in species that are of conservation concern, several studies have focused on the use of Toll-like receptors (TLRs). TLRs are innate immune genes related to pathogen resistance, and polymorphisms may reflect not only levels of functional diversity, but may also be used to assess genetic diversity within and among populations. Here, we combined four potentially adaptive markers (TLRs) with one mitochondrial (COI) marker to evaluate genetic variation in the endangered Sierra Madre Sparrow (Xenospiza baileyi). This species offers an ideal model to investigate population and evolutionary genetic processes that may be occurring in a habitat restricted endangered species with disjunct populations (Mexico City and Durango), the census sizes of which differ by an order of magnitude. TLRs diversity in the Sierra Madre Sparrow was relatively high, which was not expected given its two small, geographically isolated populations. Genetic diversity was different (but not significantly so) between the two populations, with less diversity seen in the smaller Durango population. Population genetic structure between populations was due to isolation and different selective forces acting on different TLRs; population structure was also evident in COI. Reduction of genetic diversity in COI was observed over 20 years in the Durango population, a result likely caused by habitat loss, a factor which may be the main cause of diversity decline generally. Our results provide information related to the ways in which adaptive variation can be altered by demographic changes due to human-mediated habitat alterations. Furthermore, our findings may help to guide conservation schemes for both populations and their restricted habitat., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

7. Climate complexity in the migratory cycle of Ammodramus bairdii.

Author

Peña-Peniche A, Ruvalcaba-Ortega I, and Rojas-Soto O

Subjects

Animals, Climate, Ecosystem, Models, Theoretical, Reproduction, Seasons, Sparrows growth & development, Animal Migration physiology, Sparrows physiology

Abstract

One way to understand the ecology of bird migration is to analyze how birds use their ecological niche during their annual cycle. Ammodramus bairdii is a grassland specialist sparrow that breeds in southern Canada and the northern U.S.A. and winters in the Chihuahuan Desert. A continuous and alarming decrease of its populations has been observed over the last 50 years, and studying its seasonal distribution and associated climatic niches could help improve strategies for its conservation. We analyzed the temporal use of its Grinnellian niche (GN) -set of environmental conditions under which a species can establish and persist; in this case the climatic attributes-. We modeled the GN for the reproductive and winter seasons and projected them onto each other (inter-prediction), and also onto transient migratory periods. To measure niche breadth and their overlap, minimum convex polygons (MCP) were calculated for the climatic space. The niches of each of the two seasons were tested for similarity using the PCA axes of climatic variables. The geographic areas with optimal, suboptimal and marginal conditions were identified, based on the distance to the centroid of the GN. The models for each season revealed no geographic inter-prediction among them, with the exception of winter to migratory seasons. The niche breadth of the winter was greater than that of the reproductive season, with an overlap of 22.47% and 45.18%, respectively. The similarity analyses showed a value of zero between seasons. The climate conditions for the records during the migratory months corresponded with suboptimal and marginal conditions of the sparrow's winter niche. These results suggest that A. bairdii uses different climate conditions within ecological niches of each season during its migratory cycle., Competing Interests: The authors have declared that no competing interests exist.

Published

2018