This book contains a selection of papers arising from an international conference, held in Maratea, Italy, June 26-28, 1991. It comprises six sections encompassing a range of the major aspects of entropy-based developments in water resources. Each section normally starts with an invited, state-of-the-art paper, followed by contributed papers. Section one presents a discussion on the perspectives of entropy and energy dissipation. The applications of entropy and hydrology are considered in section two, water resources in chapter three and hydraulics in section four. Sections five and six deal with the applications of energy principles in, respectively, hydrology and hydraulics. This book should interest reseachers as well as those engaged in civil engineering, agricultural engineering, environmental engineering, hydrology, water resources, earth resources, forestry, geography and climatology. Graduate students, as well as those wishing to conduct research on entropy or its applications, should find this book useful.

This book addresses synergy management, which poses an important challenge for firms, advisors and practitioners involved in mergers and acquisitions (M&A). Synergy plays a key role in M&A contexts, both in the decision-making process and, subsequently, in the integration phase. However, despite the fact that synergy value is commonly regarded as one of the key success factors in M&A, research shows that firms generally fail to achieve the expected synergy. The extant literature is characterized by a lack of comprehensive models of synergy management: the assessment of synergy value remains a "black box" for scholars and practitioners alike. The authors provide a comprehensive framework for synergy management by integrating findings from prior research and various disciplines. The framework highlights the main dimensions of synergy management in mergers and acquisitions, common pitfalls, and new models and tools for avoiding them. As such, the book enriches the M&A literature, offers new insights for scholars, and provides valuable guidelines for practitioners involved in synergy management.

The volume brings together the papers read at the international conference on Romance Objects organized by the Linguistics Department of the Roma Tre University. It is characterized by a striking uniformity of approach, which is functional, and of methodology. The various case studies regarding the object focus on the syntax/semantics and syntax/pragmatics interfaces. The common denominator of the ten enquiries is the identification of the object category, the DO in particular, in Romance languages; at the same time some of the contributors relate the specific topic to more general questions of linguistic typology. Some of the essays are based on the analysis of data from a corpus and present a diachronic picture of the evolution of the specific topic investigated. Thus this volume is addressed not only to scholars interested in the Romance languages but also all those who study the object category in a cross-linguistic perspective. Michela Cennamo: (In)transitivity and object marking: some current issues.

The last few years have witnessed an enormous interest in application of GIS in hydrology and water resources. This is partly evidenced by organization of sev eral national and international symposia or conferences under the sponsorship of various professional organizations. This increased interest is, in a large measure, in response to growing public sensitivity to environmental quality and management. The GIS technology has the ability to capture, store, manipulate, analyze, and visualize the diverse sets of geo-referenced data. On the other hand, hydrology is inherently spatial and distributed hydrologic models have large data requirements. The integration of hydrology and GIS is therefore quite natural. The integration involves three major components: (1) spatial data construction, (2) integration of spatial model layers, and (3) GIS and model interface. GIS can assist in design, calibration, modification and comparison of models. This integration is spreading worldwide and is expected to accelerate in the foreseeable future. Substantial op portunities exist in integration of GIS and hydrology. We believe there are enough challenges in use of GIS for conceptualizing and modeling complex hydrologic processes and for globalization of hydrology. The motivation for this book grew out of the desire to provide under one cover a range of applications of GIS tech nology in hydrology. It is hoped that the book will stimulate others to write more comprehensive texts on this subject of growing importance."