Raymond P. Guries scite author profile

The spatial ecology of sloths was studied in an agricultural landscape in Limón Province, Costa Rica. Two sloth species, the three-toed sloth (Bradypus variegatus) and the two-toed sloth (Choloepus hoffmanni), actively used and traveled through a cacao agroforest and its contiguous living fence rows and riparian forests. This agroecosystem was embedded in an agricultural landscape dominated by banana and pineapple plantations and pastures with dispersed trees. The two-toed sloth (C. hoffmanni) was found in 101 tree species and used 34 for food; the three-toed sloth (B. variegatus) was found in 71 tree species and used 15 for food. Choice of preferred species differed between the two sloth species. Trees commonly used by sloths for food and/or refuge in the cacao agroforest included Erythrina poeppigiana, Cecropia obtusifolia, Leucaena leucocephala; in the living fence rows, Cordia alliodora, Erythrina poeppigiana, Ocotea sinuata and Trophis racemosa; in the riparian forests, Coussapoa villosa, Cecropia obtusifolia, Hura crepitans, Pterocarpus officinalis and Spondias mombin; and in the pastures with dispersed trees, Cordia alliodora, Coussapoa villosa, Erythrina poeppigiana, Ocotea sinuata and Hura crepitans. This study demonstrates the importance of the cacao agroforest as well as arboreal elements in other land uses in providing resources for sloth conservation in a larger agricultural landscape.

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Population structure, genic diversity, and morphological variation in Pinuscontorta Dougl.

Wheeler¹,

Guries²

1982

Can. J. For. Res.

147

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Lodgepole pine (Pinuscontorta Dougl.) occupies a large and ecologically diverse range in western North America. The species is generally recognized as consisting of four subspecies, three of which are widespread and the fourth endemic to the north coast of California. Geographic isolation of subspecies is nearly complete although gene flow may occur in certain instances. Moderate heterozygosity estimates (0.10–0.14) and low standard errors of the estimate (0.02–0.04) were obtained for all populations of lodgepole pine and are comparable with other recent studies of conifers that based estimates on 20 or more loci. The distribution of allozyme variation indicates that very little population differentiation has occurred. Approximately 91% of the allozyme variability resides within populations, with 3 and 6% distributed among subspecies and among populations, respectively. The extent of population differentiation is far less than that observed for many herbaceous plants but similar to reports for other conifers. In contrast, a large proportion of morphometric variation in lodgepole pine cone and seed traits is distributed among subspecies (38%) and among populations within subspecies (19%). This may be attributed to the effects of strong selective pressures acting on important reproductive structures and to the conventional methodology for analyzing morphometric variation. The present study confirms, with minor exceptions, an earlier taxonomic treatment of lodgepole pine. Notably, the assignment of lodgepole pine in the Cascade Range of southern Oregon to ssp. murrayana is probably inappropriate. While morphological data suggest a close affinity to ssp. murrayana, allozyme data suggest that populations in this area should be assigned to ssp. latifolia.

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ORIGINAL ARTICLE: The extent of hybridization and its impact on the genetic diversity and population structure of an invasive tree, Ulmus pumila (Ulmaceae)

Zalapa

Brunet

Guries

2010

Evolutionary Applications

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Ulmus pumila is considered an invasive tree in 41 of the United States. In this study, we examined the extent of hybridization in naturalized populations of U. pumila, its impact on genetic diversity and genetic structure and its potential role in explaining the invasion process of U. pumila. Genetic analyses indicated widespread hybridization with native Ulmus rubra in naturalized U. pumila populations. Hybridization increased the genetic diversity of U. pumila populations and affected their genetic structure. The level of genetic diversity in ‘mature’ accessions, many of which may represent original plantings throughout the USA, was high and similar to the diversity of East Asian accessions. Hybridization with the native red elm may play an important role in the success of Siberian elm as an invader in temperate regions of the USA.

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Patterns of hybridization and introgression between invasive Ulmus pumila (Ulmaceae) and native U. rubra

Zalapa¹,

Brunet²,

Guries³

2009

American J of Botany

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Natural hybridization between introduced species and their native congeners occurs frequently and can create serious conservation concerns. Ulmus pumila (Siberian elm) is an introduced Asian elm species that has naturalized in the United States and is now considered invasive in 41 states. Red elm (U. rubra), a native to the eastern United States, often occurs in sympatry with Siberian elm, and the two species are thought to hybridize. Here, we genetically characterized reference populations of the two elm species to identify species-specific microsatellite alleles. These markers were used to classify individuals in putative hybrid zones as parental species or hybrids, assess the extent of hybridization, and track patterns of introgression. We identified nine U. rubra, 32 U. pumila, and 51 hybrid individuals in our hybrid zones. Of the 51 hybrids, 35 were classified as first-generation hybrids and 16 as backcrosses. The majority of the backcrosses (88%) were introgressed toward U. pumila. Our classification of genotypes was consistent whether we used manual classification, principal coordinate analyses or Bayesian clustering. We observed greater genetic diversity and new combination of alleles in the hybrids. Our study indicates widespread hybridization between U. pumila and U. rubra and an asymmetric pattern of introgression toward U. pumila.

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Forest structure and productivity of palmiteiro (Euterpe edulis Martius) in the Brazilian Mata Atlântica

Fantini

Guries

2007

Forest Ecology and Management

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Raymond P. Guries

Spatial ecology and conservation of two sloth species in a cacao landscape in limón, Costa Rica

Population structure, genic diversity, and morphological variation in Pinuscontorta Dougl.

ORIGINAL ARTICLE: The extent of hybridization and its impact on the genetic diversity and population structure of an invasive tree, Ulmus pumila (Ulmaceae)

Patterns of hybridization and introgression between invasive Ulmus pumila (Ulmaceae) and native U. rubra

Forest structure and productivity of palmiteiro (Euterpe edulis Martius) in the Brazilian Mata Atlântica

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