Notes On The Use Of Propagation Of Error Formulas Ku
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on the Use of Propagation of Error FormulasArticle in Journal of research of the National Bureau of Standards 1(4):331-341 · January 1969 with 20 Reads1st HH KuDo you want to read the rest of this article?Request full-text CitationsCitations183ReferencesReferences0First Ecological Study of the Bawean https://www.researchgate.net/publication/256393535_Notes_on_the_Use_of_Propagation_of_Error_Formulas Warty Pig (Sus blouchi), One of the Rarest Pigs on Earth"We extrapolated the estimated densities per km 2 to the total protected area size on Bawean to provide estimations of population size. We used a propagation https://proxy.eplanete.net/galleries/broceliande7/error-propagation-equation of error approach, a calculus derived statistical calculation , to determine the effects of the uncertainty of the parameter variables on the uncertainty of the density function [38]. The uncertainty of the density estimation D error propagation is equal to the square root of the squared sums of the uncertainty of the parameters day range, radius and angle, multiplied by the partial derivative of these parameters [39]. "[Show abstract] [Hide abstract] ABSTRACT: The Bawean warty pig (Sus blouchi) is an endemic pig species confined to the 192 km2 large island of Bawean in the Java Sea, Indonesia. Due to a lack of quantitative ecological research, understanding of natural history notes on the and conservation requirements have so far been based solely on anecdotal information from interviews with local people and study of captive and museum specimens. In this study we provide the first assessment of population and habitat preferences for S. blouchi by using camera trapping. From the 4th of November 2014 to January 8th 2015, we placed camera traps at 100 locations in the forested protected areas on Bawean. In 690.31 camera days (16567.45 hours) we captured 92 independent videos showing S. blouchi. Variation in S. blouchi trapping rates with cumulative trap effort stabilized after 500 camera days. An important outcome is that, in contrast to the suggestion of previous assessments, only S. blouchi was detected and no S. scrofa was found, which excludes hybridization threats. We fitted a Random Encounter Model, which does not require the identification of individual animals, to our camera-trapping data and estimated 172–377 individuals to be present on the island. Activity patterns and habitat data indicate that S. blouchi is mainly nocturnal and prefers community forests and areas near forest borders. Next to this, we found a positive relationship between S. blouchi occupancy, distance to nearest border, litter depth and tree density in the highest ranking occupancy models. Although these relationships proved non-significant based on model averaging, t