Recent advances in endocrinology.

Previous editions by A. T. Cameron.

Recent advances in chemotherapy.

Includes "References."

Recent advances in structures for hypersonic flight : proceedings of a symposium held at Langley Research Center, Hampton, Virginia, September 6-8, 1978.

Includes bibliographical references.

Recent advances in botany,

"References" at the end of each chapter.

Recent advances in forensic medicine,

Descriptive letterpress on verso of most of the plates.

Recent advances in physical and inorganic chemistry;

Mode of access: Internet.

Recent advances in astrodynamics, 1961 /

Addenda (2 p.) inserted.

Merck's Annual Report of Recent Advances in Pharmaceutical Chemistry and Therapeutics

Title Varies: 1898-1900, Annual Report; 1906- Report on the Advancements of Pharmaceutical Chemistry and Therapeutics; 1909-14, E. Merck's Annual Report of Recent Advances In Pharmaceutical Chemistry and Therapeutics

Recent advances in bacteriology and the study of infections.

Includes bibliographies.

Recent advances in bacteriology and the study of infections.

Includes index.

Recent advances in general chemistry.

Mode of access: Internet.

Recent advances in catalysts for methanol synthesis via hydrogenation of CO and CO2

Since the start of last century, methanol synthesis has attracted great interests because of its importance in chemical industries and its potential as an environmentally friendly energy carrier. The catalyst for the methanol synthesis has been a key area of research in order to optimize the reaction process. In the literature, the nature of the active site and the effects of the promoter and support have been extensively investigated. In this updated review, the recent progresses in the catalyst innovation, optimization of the reaction conditions, reaction mechanism, and catalyst performance in methanol synthesis are comprehensively discussed. Key issues of catalyst improvement are highlighted, and areas of priority in R&D are identified in the conclusions.

Modelling, nitrogen dynamics in sugarcane systems: Recent advances and applications

Substantial amounts of nitrogen (N) fertiliser are necessary for commercial sugarcane production because of the large biomass produced by sugarcane crops. Since this fertiliser is a substantial input cost and has implications if N is lost to the environment, there are pressing needs to optimise the supply of N to the crops' requirements. The complexity of the N cycle and the strong influence of climate, through its moderation of N transformation processes in the soil and its impact on N uptake by crops, make simulation-based approaches to this N management problem attractive. In this paper we describe the processes to be captured in modelling soil and plant N dynamics in sugarcane systems, and review the capability for modelling these processes. We then illustrate insights gained into improved management of N through simulation-based studies for the issues of crop residue management, irrigation management and greenhouse gas emissions. We conclude by identifying processes not currently represented in the models used for simulating N cycling in sugarcane production systems, and illustrate ways in which these can be partially overcome in the short term. (c) 2005 Elsevier B.V. All rights reserved.