Approach» is a book appropriately titled. It is devoted to a current and hot area in wildlife. It is a compiled book of 26 chapters edited by Francesco M. Angelici of Fondazione Italiana per la Zoologia dei Vertebrati (FIZV), Italy. The book contains case studies with detailed maps, descriptions and copious illustrations. The main objective of the book, as highlighted in the preface, is to spotlight the concept of problematic species, thus describing about the cross-cutting issue, the man-animal conflict and the need for changes in the management strategies which are pictured through case studies in the book. To have a better interpretation, the book is divided into parts ensuring easy reading by commencing with an overview. The book, in our opinion, can be aptly commented on as an interesting and intriguing work. Dr Francesco Angelici, as the editor, has to be given the credits of aggregating and assembling the works of several authors to assimilate a comprehensive work on the current area of wildlife management. The content of the book is divided into nine parts. The concept and definition of problematic species and the justification of the book are highlighted in part I, whereas the issue of extinction of species and some case studies are in part II. A distinct concept of when does a wild animal becomes a problem is presented in part III, while part IV, V and VI detail about problematic Мордовский государственный университет имени Н.П.
Response to the published article "A study on the density, population structure and regeneration of Red Sanders (Pterocarpus santalinus) (Fabales: Fabaceae) in a protected natural habitat of Sri Lankamalleswara Wildlife Sanctuary, Andhra Pradesh, India" by Ankalaiah et al. 2017.
High thermal conductivity and high surface to volume ratios of nanostructures such as carbon nanotubes and metallic nanowires make them great candidates as micro/nano-fins and thus a potential solution to the ever-increasing thermal management challenges in electronics and photonics. With sizes ranging in the order of a few hundred nanometers or less, the fluid flow through these structures fall in the transition, slip, and even molecular transport regimes. The effects of the velocity and temperature slips (gas rarefaction) could not be neglected. In this study, a simple analytical model has been developed to predict the effect of gas rarefaction on the heat transfer performance of submicron fins. It is shown that the effects of gas rarefaction should be taken into account when designing micro/nano-fins since such effects can significantly reduce the heat transfer enhancement postulated for micro/nano-fins.
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