Your search keyword '"Ben J"' showing total 8 results

1. Single-locus species delimitation: a test of the mixed Yule-coalescent model, with an empirical application to Philippine round-leaf bats.

Author

Jacob A., Esselstyn, Ben J., Evans, Jodi L., Sedlock, Faisal Ali, Anwarali Khan, and Lawrence R., Heaney

Subjects

*EMPIRICAL research, *BATS, *SPECIES diversity, *BIODIVERSITY, *DATA analysis

Abstract

Prospects for a comprehensive inventory of global biodiversity would be greatly improved by automating methods of species delimitation. The general mixed Yule–coalescent (GMYC) was recently proposed as a potential means of increasing the rate of biodiversity exploration. We tested this method with simulated data and applied it to a group of poorly known bats (Hipposideros) from the Philippines. We then used echolocation call characteristics to evaluate the plausibility of species boundaries suggested by GMYC. In our simulations, GMYC performed relatively well (errors in estimated species diversity less than 25%) when the product of the haploid effective population size (Ne) and speciation rate (SR; per lineage per million years) was less than or equal to 105, while interspecific variation in Ne was twofold or less. However, at higher but also biologically relevant values of Ne × SR and when Ne varied tenfold among species, performance was very poor. GMYC analyses of mitochondrial DNA sequences from Philippine Hipposideros suggest actual diversity may be approximately twice the current estimate, and available echolocation call data are mostly consistent with GMYC delimitations. In conclusion, we consider the GMYC model useful under some conditions, but additional information on Ne, SR and/or corroboration from independent character data are needed to allow meaningful interpretation of results. [ABSTRACT FROM AUTHOR]

Published

2012

2. Village-based Illegal Logging in Northern Luzon.

Author

Wallace, Ben J.

Subjects

ILLEGAL logging, DEFORESTATION

Abstract

In Southeast Asia, it is human intervention into nature, through the uses and misuses of technological practices and perceptions, that primarily account for deforestation. The bulk of criticism and blame for deforestation in the Philippines from both legal and illegal logging is usually attributed to large logging corporations. The logging groups most often overlooked are small teams of poor farmers who are involved in illegal logging activities. In this paper, the illegal logging activities of poor farmers are examined, data on the number of trees logged each year by villagers are presented, and the extent of deforestation is projected in the greater Northern Luzon area. [ABSTRACT FROM AUTHOR]

Published

2011

3. Adaptive Radiation and Ecological Opportunity in Sulawesi and Philippine Fanged Frog (Limnonectes) Communities.

Author

Setiadi, Mohammad I., McGuire, Jimmy A., Brown, Rafe M., Zubairi, Mohammad, Iskandar, Djoko T., Andayani, Noviar, Supriatna, Jatna, and Evans, Ben J.

Subjects

AMPHIBIANS, ANIMAL diversity, ANIMAL ecology, LIMNONECTES, BAYESIAN analysis

Abstract

Because island communities are derived from mainland communities, they are often less diverse by comparison. However, reduced complexity of island communities can also present ecological opportunities. For example, amphibian diversity on Sulawesi Island is lower than it is in the Philippines, but Sulawesi supports a surprising diversity of Sulawesi fanged frogs (Limnonectes). Here we examine molecular, morphological, and geographical variation of fanged frogs from these two regions. Using genealogical concordance, morphology, and a Bayesian approach to species delimitation, we identified 13 species on Sulawesi, only four of which have been previously described. After evolutionary history is accounted for, a model with multiple body size optima in sympatric species is favored over a "random-walk" model of body size evolution. Additionally, morphological variation is higher among sympatric than nonsympatric species on Sulawesi but not in the Philippines. These findings suggest that adaptive radiation of fanged frogs on Sulawesi was driven by natural selection to infiltrate ecological niches occupied by other frog lineages in the Philippines. This supports a role of ecological opportunity in community assembly: diversification in mature communities, such as the Philippines, is limited by a dearth of unoccupied ecological niches. On Sulawesi, evolutionary novelties originated in a predictable and replicated fashion in response to opportunities presented by a depauperate ancestral community. [ABSTRACT FROM AUTHOR]

Published

2011

4. Gaddang Rice Cultivation: A Ligature Between Man and Nature.

Author

Wallace, Ben J.

Subjects

AGRICULTURAL sociology, PLANTING, RICE, HARVESTING, HOUSEHOLDS, TRIBES

Abstract

The article examines the selected aspects of the relationship between man and nature as observed in the rice planting practices of the Gaddang tribe in Northern Philippines. The subjects of this study are the Pagan Gaddang of the Cagayan Valley and the eastern parts of Bontoc and Ifugao sub-provinces. There are approximately 2,500 speakers of this, dialect of Gaddang. The research does not consider the Christianized Gaddang of Isabela or Nueva Vizcaya. Although they and the pagan population speak a mutually intelligible language, culturally they are quite distinct. The minimal social unit among the Gaddang responsible for the preparation, cultivation, and harvesting of a swidden is the tabalayan or household. The most common type of household is comprised of a complete nuclear family, consisting of husband and wife, with or without offspring. But a household may also consist of a divorced or widowed individual, with or without children, or an adult individual who has never married. In the latter case, this type of household seldom occurs among women.

Published

1967

5. Phylogeography and historical demography of Polypedates leucomystax in the islands of Indonesia and the Philippines: Evidence for recent human-mediated range expansion?

Author

Brown, Rafe M., Linkem, Charles W., Siler, Cameron D., Sukumaran, Jeet, Esselstyn, Jacob A., Diesmos, Arvin C., Iskandar, Djoko T., Bickford, David, Evans, Ben J., McGuire, Jimmy A., Grismer, Lee, Supriatna, Jatna, and Andayani, Noviar

Subjects

*PHYLOGEOGRAPHY, *WHITE-lipped treefrog, *BIODIVERSITY, *FRESHWATER animals, *NUCLEOTIDE sequence, *FARM produce

Abstract

Abstract: Southeast Asia’s widespread species offer unique opportunities to explore the effects of geographical barriers to dispersal on patterns of vertebrate lineage diversification. We analyzed mitochondrial gene sequences (16S rDNA) from a geographically widespread sample of 266 Southeast Asian tree frogs, including 244 individuals of Polypedates leucomystax and its close relatives. Our expectation was that lineages on island archipelagos would exhibit more substantial geographic structure, corresponding to the geological history of terrestrial connectivity in this region, compared to the Asian mainland. Contrary to predictions, we found evidence of numerous highly divergent lineages from a limited area on the Asian mainland, but fewer lineages with shallower divergences throughout oceanic islands of the Philippines and Indonesia. Surprisingly and in numerous instances, lineages in the archipelagos span distinct biogeographical provinces. Phylogeographic analyses identified four major haplotype clades; summary statistics, mismatch distributions, and Bayesian coalescent inference of demography provide support for recent range expansion, population growth, and/or admixture in the Philippine and some Sulawesi populations. We speculate that the current range of P. leucomystax in Southeast Asia is much larger now than in the recent past. Conversion of forested areas to monoculture agriculture and transportation of agricultural products between islands may have facilitated unprecedented population and range expansion in P. leucomystax throughout thousands of islands in the Philippine and Indonesian archipelagos. [Copyright &y& Elsevier]

Published

2010

6. Mitogenomics of macaques (Macaca) across Wallace's Line in the context of modern human dispersals.

Author

Evans BJ, Gansauge MT, Tocheri MW, Schillaci MA, Sutikna T, Jatmiko, Saptomo EW, Klegarth A, Tosi AJ, Melnick DJ, and Meyer M

Subjects

Animals, Humans, Indonesia, Macaca genetics, Philippines, Animal Distribution, Genome, Mitochondrial, Human Migration, Macaca physiology

Abstract

Wallace's Line demarcates a biogeographical boundary between the Indomalaya and Australasian ecoregions. Most placental mammalian genera, for example, occur to the west of this line, whereas most marsupial genera occur to the east. However, macaque monkeys are unusual because they naturally occur on both western and eastern sides. To further explore this anomalous distribution, we analyzed 222 mitochondrial genomes from ∼20 macaque species, including new genomes from 60 specimens. These comprise a population sampling of most Sulawesi macaques, Macaca fascicularis (long-tailed macaques) specimens that were collected by Alfred R. Wallace and specimens that were recovered during archaeological excavations at Liang Bua, a cave on the Indonesian island of Flores. In M. fascicularis, three mitochondrial lineages span the southernmost portion of Wallace's Line between Bali and Lombok, and divergences within these lineages are contemporaneous with, and possibly mediated by, past dispersals of modern human populations. Near the central portion of Wallace's Line between Borneo and Sulawesi, a more ancient dispersal of macaques from mainland Asia to Sulawesi preceded modern human colonization, which was followed by rapid dispersal of matrilines and was subsequently influenced by recent interspecies hybridization. In contrast to previous studies, we find no strong signal of recombination in most macaque mitochondrial genomes. These findings further characterize macaque evolution before and after modern human dispersal throughout Southeast Asia and point to possible effects on biodiversity of ancient human cultural diasporas., (Copyright © 2020 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2020

7. Single-locus species delimitation: a test of the mixed Yule-coalescent model, with an empirical application to Philippine round-leaf bats.

Author

Esselstyn JA, Evans BJ, Sedlock JL, Anwarali Khan FA, and Heaney LR

Subjects

Animals, Computer Simulation, Cytochrome b Group genetics, Echolocation, Likelihood Functions, Mitochondrial Proteins genetics, Molecular Sequence Data, NADH Dehydrogenase genetics, Philippines, Phylogeny, Sequence Analysis, DNA, Biodiversity, Chiroptera classification, Chiroptera genetics, Classification methods, Genetic Speciation

Abstract

Prospects for a comprehensive inventory of global biodiversity would be greatly improved by automating methods of species delimitation. The general mixed Yule-coalescent (GMYC) was recently proposed as a potential means of increasing the rate of biodiversity exploration. We tested this method with simulated data and applied it to a group of poorly known bats (Hipposideros) from the Philippines. We then used echolocation call characteristics to evaluate the plausibility of species boundaries suggested by GMYC. In our simulations, GMYC performed relatively well (errors in estimated species diversity less than 25%) when the product of the haploid effective population size (N(e)) and speciation rate (SR; per lineage per million years) was less than or equal to 10(5), while interspecific variation in N(e) was twofold or less. However, at higher but also biologically relevant values of N(e) × SR and when N(e) varied tenfold among species, performance was very poor. GMYC analyses of mitochondrial DNA sequences from Philippine Hipposideros suggest actual diversity may be approximately twice the current estimate, and available echolocation call data are mostly consistent with GMYC delimitations. In conclusion, we consider the GMYC model useful under some conditions, but additional information on N(e), SR and/or corroboration from independent character data are needed to allow meaningful interpretation of results.

Published

2012

8. Phylogenetics of fanged frogs: testing biogeographical hypotheses at the interface of the asian and Australian faunal zones.

Author

Evans BJ, Brown RM, McGuire JA, Supriatna J, Andayani N, Diesmos A, Iskandar D, Melnick DJ, and Cannatella DC

Subjects

Animals, Australia, Base Sequence, Bayes Theorem, DNA Primers, DNA, Mitochondrial genetics, Geography, Indonesia, Likelihood Functions, Models, Genetic, Molecular Sequence Data, Philippines, Ranidae anatomy & histology, Ranidae physiology, Sequence Analysis, DNA, Movement physiology, Phylogeny, Ranidae genetics

Abstract

The interface of the Asian and Australian faunal zones is defined by a network of deep ocean trenches that separate intervening islands of the Philippines and Wallacea (Sulawesi, the Lesser Sundas, and the Moluccas). Studies of this region by Wallace marked the genesis of the field of biogeography, yet few workers have used molecular methods to investigate the biogeography of taxa whose distribution spans this interface. Some taxa, such as the fanged frogs of the ranid genus Limnonectes, have distributions on either side of the zoogeographical lines of Wallace and Huxley, offering an opportunity to ask how frequently these purported barriers were crossed and by what paths. To examine diversification of Limnonectes in Southeast Asia, the Philippines, and Wallacea, we estimated a phylogeny from mitochondrial DNA sequences obtained from a robust geographic sample. Our analyses suggest that these frogs dispersed from Borneo to the Philippines at least twice, from Borneo to Sulawesi once or twice, from Sulawesi to the Philippines once, and from the Philippines to Sulawesi once. Dispersal to the Moluccas occurred from Sulawesi and to the Lesser Sundas from Java/Bali. Species distributions are generally concordant with Pleistocene aggregate island complexes of the Philippines and with areas of endemism on Sulawesi. We conclude that the recognition of zoogeographic lines, though insightful, may oversimplify the biogeography of widespread taxa in this region.

Published

2003