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Agriculture and climate beyond 2015: A New Perspective on Future Land Use Patterns

Floor Brouwer ; Bruce A. McCarl (eds.)

Resumen/Descripción – provisto por la editorial

No disponible.

Palabras clave – provistas por la editorial

Environmental Monitoring/Analysis; Climate Change Management and Policy; Agriculture; Environmental Law/Policy/Ecojustice

Disponibilidad
Institución detectada Año de publicación Navegá Descargá Solicitá
No detectada 2006 SpringerLink

Información

Tipo de recurso:

libros

ISBN impreso

978-1-4020-4063-4

ISBN electrónico

978-1-4020-4368-0

Editor responsable

Springer Nature

País de edición

Reino Unido

Fecha de publicación

Información sobre derechos de publicación

© Springer Science+Business Media B.V. 2006

Tabla de contenidos

Introduction

Floor Brouwer; Bruce A. McCarl

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 1 - Setting the scene | Pp. 1-4

Agriculture, climate and future land use patterns: potential for a simulation-based exploration

Peter H. Verburg; Jan Peter Lesschen

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 1 - Setting the scene | Pp. 5-32

Technology development and climate change as drivers of future agricultural land use

Frank Ewert; Mark Rounsevell; Isabelle Reginster; Marc Metzger; Rik Leemans

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 1 - Setting the scene | Pp. 33-51

Agricultural transitions at dryland and tropical forest margins: actors, scales and trade-offs

Helmut Geist; Eric Lambin; Cheryl Palm; Thomas Tomich

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 1 - Setting the scene | Pp. 53-73

World livestock and crop production systems, land use and environment between 1970 and 2030

Lex Bouwman; Klaas van der Hoek; Gerard van Drecht; Bas Eickhout

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 2 - Cases on future land use | Pp. 75-89

Agricultural change and limits to deforestation in Central America

David Carr; Alisson Barbieri; William Pan; Heide Iranavi

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 2 - Cases on future land use | Pp. 91-107

Rising food demand, climate change and the use of land and water

Hermann Lotze-Campen; Christoph Müller; Alberte Bondeau; Pascalle Smith; Wolfgang Lucht

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 2 - Cases on future land use | Pp. 109-129

Population and economic growth as drivers of future land use in India

Neeraj Sharma

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 2 - Cases on future land use | Pp. 131-146

Bottom-up methodologies for assessing technical and economic bioenergy production potential

Edward M.W. Smeets; Jinke van Dam; André P.C. Faaij; Iris M. Lewandowski

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 3 - Agricultural mitigation responses | Pp. 147-170

Changes in consumption patterns: options and impacts of a transition in protein foods

Harry Aiking; Xueqin Zhu; Ekko van Ierland; Frank Willemsen; Xinyou Yin; Jan Vos

In this paper, we propose an extension to DiffServ QoS architecture in order to enhance its performance and its flexibility when used in MANETs and its adaptation to the characteristics of these networks. Then we present a formal model of our proposed extension using stochastic process algebras in order to verify the correctness and the efficiency of the proposed extension.

Part 3 - Agricultural mitigation responses | Pp. 171-189