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This book assesses the Collaborative Forest Landscape Restoration
Program (CFLRP) and identifies lessons learned for governance and
policy through this new and innovative approach to collaborative
forest management. Unlike anything else in US public land
management, the CFLRP is a nationwide program that requires
collaboration throughout the life of national forest restoration
projects, joining agency partners and local stakeholder groups in a
kind of decade-long restoration marriage. This book provides a
comprehensive assessment of the governance dynamics of the program,
examining: questions about collaborative governance processes and
the dynamics of trust, accountability and capacity; how scientific
information is used in making decisions and integrated into
adaptive management processes; and the topic of collaboration
through implementation, an underdeveloped area of collaborative
governance literature. Bringing together chapters from a community
of social science and policy researchers who have conducted studies
across multiple CFLRP projects, this volume generates insights, not
just about the program, but also about dynamics that are central to
collaborative and landscape approaches to land management and
relevant for broader practice. This volume is a timely and
important contribution to environmental governance scholarship. It
will be of interest to researchers and students of natural resource
management, environmental governance, and forestry, as well as
practitioners and policy makers involved in forest and ecosystem
restoration efforts, and collaborative natural resource management
more broadly.
This book assesses the Collaborative Forest Landscape Restoration
Program (CFLRP) and identifies lessons learned for governance and
policy through this new and innovative approach to collaborative
forest management. Unlike anything else in US public land
management, the CFLRP is a nationwide program that requires
collaboration throughout the life of national forest restoration
projects, joining agency partners and local stakeholder groups in a
kind of decade-long restoration marriage. This book provides a
comprehensive assessment of the governance dynamics of the program,
examining: questions about collaborative governance processes and
the dynamics of trust, accountability and capacity; how scientific
information is used in making decisions and integrated into
adaptive management processes; and the topic of collaboration
through implementation, an underdeveloped area of collaborative
governance literature. Bringing together chapters from a community
of social science and policy researchers who have conducted studies
across multiple CFLRP projects, this volume generates insights, not
just about the program, but also about dynamics that are central to
collaborative and landscape approaches to land management and
relevant for broader practice. This volume is a timely and
important contribution to environmental governance scholarship. It
will be of interest to researchers and students of natural resource
management, environmental governance, and forestry, as well as
practitioners and policy makers involved in forest and ecosystem
restoration efforts, and collaborative natural resource management
more broadly.
A description of general techniques for solving linear partial
differential equations by dividing space into regions to which the
equations are independently applied and then assembling a global
solution from the partial ones. Intended for researchers and
graduates involved in calculations of the electronic structure of
materials, this will also be of interest to workers in quantum
chemistry, electron microscopy, acoustics, optics, and other
fields. The book begins with an intuitive approach to scattering
theory and then turns to partial waves and a formal development of
multiple scattering theory, with applications to the solid state.
The authors then present a variational derivation of the formalism
and an augmented version of the theory, concluding with a
discussion of the relativistic formalism and a discussion of the
Poisson equation. Appendices discuss Green's functions, spherical
functions, Moller operators and the Lippmann-Schwinger equation,
irregular solutions, and singularities in Green's functions.
A description of general techniques for solving linear partial differential equations by dividing space into regions to which the equations are independently applied and then assembling a global solution from the partial ones. Intended for researchers and graduates involved in calculations of the electronic structure of materials, this will also be of interest to workers in quantum chemistry, electron microscopy, acoustics, optics, and other fields. The book begins with an intuitive approach to scattering theory and then turns to partial waves and a formal development of multiple scattering theory, with applications to the solid state. The authors then present a variational derivation of the formalism and an augmented version of the theory, concluding with a discussion of the relativistic formalism and a discussion of the Poisson equation. Appendices discuss Green's functions, spherical functions, Moller operators and the Lippmann-Schwinger equation, irregular solutions, and singularities in Green's functions.
This is a reproduction of a book published before 1923. This book
may have occasional imperfections such as missing or blurred pages,
poor pictures, errant marks, etc. that were either part of the
original artifact, or were introduced by the scanning process. We
believe this work is culturally important, and despite the
imperfections, have elected to bring it back into print as part of
our continuing commitment to the preservation of printed works
worldwide. We appreciate your understanding of the imperfections in
the preservation process, and hope you enjoy this valuable book.
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