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Field Guide (field + guide)

Distribution by Scientific Domains
Life Sciences55%
Humanities and Social Sciences22%

Selected Abstracts

Field Guide to Urgent and Ambulatory Care Procedures

EMERGENCY MEDICINE AUSTRALASIA, Issue 2 2002
Bryan Walpole
No abstract is available for this article. [source]

A Field Guide to Sprawl

THE JOURNAL OF AMERICAN CULTURE, Issue 1 2005
Robert E. Weir
No abstract is available for this article. [source]

Ireland's Wild Orchids , A Field Guide

BOTANICAL JOURNAL OF THE LINNEAN SOCIETY, Issue 2 2010
M. F. Fay
No abstract is available for this article. [source]

Refugee perceptions of the quality of healthcare: findings from a participatory assessment in Ngara, Tanzania

DISASTERS, Issue 4 2005
Edmund Rutta
Abstract This article describes the findings of a participatory assessment of Burundian and Rwandan refugees' perceptions of the quality of health services in camps in Ngara, Tanzania. Taking a beneficiary-centred approach, it examines a collaborative effort by several agencies to develop a generic field guide to analyse refugees' views of healthcare services. The objective was to gather information that would contribute to significant improvements in the care offered in the camps. Although the primary focus was on healthcare, several broader questions considered other general apprehensions that might influence the way refugees perceive their healthcare. Findings indicated that while refugees in Ngara were generally satisfied with the quality of healthcare provided and healthcare promotion activities, recognition of some key refugee concerns would assist healthcare providers in enhancing services. With increasing need for refugee community participation in evaluating humanitarian assistance, this assessment has relevance both in the context of Ngara and beyond. [source]

A field guide to models of sex-ratio evolution in gynodioecious species

OIKOS, Issue 10 2007
Maia F. Bailey
Gynodioecious plant species, species in which individuals are females or hermaphrodites, are ideal systems for studying connections between genetics, ecology, and long-term evolutionary changes because sex determination can be complex, involving cytoplasmic and/or nuclear genes, and sex ratio is often variable across landscapes. Field data are needed to evaluate the many theories concerning this breeding system. In order to facilitate the gathering of relevant data, this paper introduces the four types of gynodiocy (nuclear, nuclear-cytoplasmic and stochastic gynodioecy plus subdioecy), describes example species and expected patterns, discusses the various forces that drive the evolution of female frequencies, and gives concrete advice on where to start collecting data for different systems. For species in which females are relatively rare, we recommend reciprocal crosses to determine if sex-determination is nuclear or nuclear-cytoplasmic along with a search for correlations between female frequencies and ecological factors. For species in which females are common and sex ratios are highly variable, we recommend looking at female offspring sex ratios to determine if females are primarily produced in ephemeral epidemics. In the course of this discussion, we argue that the majority of natural gynodioecious species will have complex sex determination in which multiple cytoplasmic male sterility (CMS) genes interact with multiple nuclear restorers of fertility. Sex-ratio evolution in such species will be primarily influenced by fitness differences among hermaphrodites (costs of restoration) and less influenced by fitness differences between the sexes (compensation). Metapopulation dynamics alone may explain population sex ratios of species in which females are associated with marginal environments or hybrid zones; however, we feel that in most cases equilibrium forces within populations and metapopulation dynamics among populations each explain portions of the sex-ratio pattern. [source]

In reference to lemurs: a comprehensive field guide and call to action on behalf of the unique primates of Madagascar

AMERICAN JOURNAL OF PRIMATOLOGY, Issue 2 2008
Stacey Tecot
No abstract is available for this article. [source]

A field guide to geophysics in archaeology.

ARCHAEOLOGICAL PROSPECTION, Issue 1 2010
Chichester, J. Springer-Praxis, Oswin, UK 2009.
No abstract is available for this article. [source]

National review of state wildlife action plans for Odonata species of greatest conservation need

INSECT CONSERVATION AND DIVERSITY, Issue 2 2010
JASON T. BRIED
Abstract., 1.,The overarching goal of United States wildlife action plans is to prevent wildlife from becoming endangered or declining to levels where recovery becomes unlikely. Effective plan implementation depends on establishing Species of Greatest Conservation Need (SGCN), defined as wildlife species with small or declining populations or other characteristics that make them vulnerable. 2.,Although nearly two-thirds of distinct Odonata species known from the U.S. (441 species as of 2005) were appointed as SGCN, over half the states neglected to assign dragonfly SGCN, damselfly SGCN, or both. Western and southern states listed proportionately fewer odonate SGCN than states of the Great Lakes, Mid-Atlantic, and New England regions, apparently reflecting geographic patterns of legal authority, available information, and involvement by Odonata specialists. 3.,Greater consultation of Odonata specialists is encouraged in any revision of state wildlife action plans, along with increased: (i) use of existing conservation lists, (ii) inferences from field guides and major faunal synopses, (iii) recognition of patterns of endemism, and (iv) application of empirical species distribution modelling. 4.,Legal and management restrictions aside, insects and other invertebrates are often neglected in mainstream conservation efforts because they are perceived as understudied. It is erroneous to assume ,not enough information' exists for well-studied microfauna such as Odonata and doing so further undermines the conservation of less conspicuous and charismatic taxa. [source]

Predators, parasitoids and pathogens: species richness, trophic generality and body sizes in a natural food web

JOURNAL OF ANIMAL ECOLOGY, Issue 1 2000
J. Memmott
Summary 1.,A food web is presented which describes trophic interactions among the herbivores, parasitoids, predators and pathogens associated with broom, Cytisus scoparius (L.) Link. The data come from published work on the community at a single site. The web comprises a total of 154 taxa: one plant, 19 herbivores, 66 parasitoids, 60 predators, five omnivores and three pathogens. There are 370 trophic links between these taxa in the web. The taxa form 82 functionally distinct groups, called trophic species. 2.,Predators consumed significantly more species than did parasitoids: a median of two prey species per species of predator (range = 1,9), compared to a median of one host species per species of parasitoid (range = 1,4). Significant differences in the number of species consumed were also found among the five predator groups: birds (median = 4), spiders (median = 5), Coleoptera (median = 1), Diptera (median = 2) and Hemiptera (median = 7). 3.,Vulnerability, measured by numbers of consumer species, was significantly affected by the herbivores' feeding styles: externally feeding herbivores were most vulnerable and the concealed herbivores were least vulnerable. Miners were vulnerable to the most parasitoid species and externally feeding herbivores were the most vulnerable to predators. 4.,Resource species had a median vulnerability of 13 consumer species, a figure far higher than that in most published food webs. No significant relationship was found between species' vulnerability to predators and vulnerability to parasitoids. However, there was a strong negative relationship between the percentage mortality due to predation and percentage mortality due to parasitism. 5.,The broom food web contains nine orders of insects, a figure higher than previously recorded. The web also contains vertebrates, arachnids, bacteria and fungi. Most of the interactions between the orders were weak. Connectance was calculated for the complete web, the parasitoid sub-web and the predator sub-web. The connectance of the predator sub-web, a value of 0·0364, was more than an order of magnitude larger than the connectance of the entire web (0·0156) or the parasitoid sub-web (0·018). 6.,The body lengths of 52 species in the food web were estimated from field guides or museum specimens. Larger predators consumed smaller prey in 93% of predator,prey interactions. Smaller parasitoids consumed larger hosts in 79% of parasitoid,host interactions. Parasitoids were significantly smaller than predators. 7.,The 52 species were arranged in order of increasing body length along the columns and down the rows of a food web matrix. The predator sub-web was predominantly upper triangular with 8% of non-zero elements falling below the leading diagonal. The parasitoid sub-web was predominantly lower triangular with 21% non-zero elements falling above the leading diagonal. The entire web contains entries both above and below the main diagonal and thus violates a central assumption of the cascade model. [source]