Tarmo K. Remmel & Ajith H. Perera 
Mapping Forest Landscape Patterns [PDF ebook] 

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This book explores the concepts, premises, advancements, and challenges in quantifying natural forest landscape patterns through mapping techniques. After several decades of development and use, these tools can now be examined for their foundations, intentions, scope, advancements, and limitations. When applied to natural forest landscapes, mapping techniques must address concepts such as stochasticity, heterogeneity, scale dependence, non-Euclidean geometry, continuity, non-linearity, and parsimony, as well as be explicit about the intended degree of abstraction and assumptions. These studies focus on quantifying natural (i.e., non-human engineered) forest landscape patterns, because those patterns are not planned, are relatively complex, and pose the greatest challenges in cartography, and landscape representation for further interpretation and analysis.

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Tabella dei contenuti

Preface


Chapter 1: Mapping forest landscapes: overview and a primer


1. Mapping forest landscapes: an introduction

1.1 What is mapping? 

1.2 What is a forest landscape? 


2. Considerations in forest landscape mapping

2.1 Describing spatial patterns

2.2 Focus on boundaries

2.3 Beyond 2D data


3. Utility of forest landscape maps

3.1 Map representations

3.2 Morphological interpretations

3.3 Map scale

3.4 Error assessment and validation


4. Summary


Chapter 2: Fuzzy classification of vegetation for ecosystem mapping


1. Introduction


2. Overview of fuzzy systems

2.1 Fuzzy systems – key concepts for mapping

2.2 Mapping with fuzzy classifiers


3. Fuzzy approaches for identifying and utilizing uncertainty

3.1 Thematic uncertainty

3.2 Spatial uncertainty

3.3 Simultaneous considerations of thematic and spatial uncertainty

3.4 Multiple outputs – fuzzy geodatabase


4. Vertical structure mapping


5. A look to the future


6. Summary


Chapter 3: Portraying wildfires in forest landscapes as discrete complex objects


1. Introduction


2. Wildfire initiation and anatomy

2.1 Initiation

2.2 Descriptors of footprints


3. Wildfires as discrete and complex objects

3.1 The outer edge of a wildfire is scale-dependent 

3.2 Width of the ecotone

3.3 Internal heterogeneity

4. Standardized depiction of wildfires as discrete complex objects 


5. The future of mapping wildfires


5.1 Accuracy assessment in remote regions


5.2 Landscape persistence


5.3 Hierarchical data formats for capturing scale effects


Chapter 4: Airborne Li DAR applications in forest landscapes


1. Introduction


1.1 Defining ALS Li DAR  


1.2 Introduction to the three common Li DAR platforms


1.3 Intensity, point density, and multi-spectral Li DAR


2. Primary measurements


2.1 Surface models (DEM, DSM, DTM, CHM)


2.2 Canopy height models and detection and delineation of individual trees


3. Secondary measurements


3.1 Regression models and allometric equations


3.2 Vertical profile for a single tree


3.3 Classification of vegetation types


3.4 Tree genus and species classification


3.5 Case study: identifying potentially hazardous trees


4. The future of Li DAR


Chapter 5: Regression Tree modeling of spatial pattern and process interactions


1. Spatial Pattern and Processes


1.1 Describing spatial patterns


1.2 Process complexity


1.3 Data mining


2. Methods


2.1 CART models


2.2 BRT


2.3 RF models


3. Case Study Context – Influence of beetle infestation spatial patterns on fire spatial processes


3.1 Study area


3.2 Spatial data


4. Model evaluation


4.1 CART


4.2 BRTs


4.3 RF models


4.4 Comparing modeling approaches


5. Interpreting regression tree results within the context of spatial pattern and process 


Chapter 6: Mapping the abstractions of forest landscape patterns


1. Introduction


2. Tools for evaluating landscape patterns


3. Data preparation and uncertainties within metrics


3.1 Scale and classification issues


4. Mapping different aspects of a landscape pattern


4.1 Composition


4.2 Configuration


4.3 Criteria for selecting metrics


5. Applications of forest pattern mapping


5.1 Improving forest management


5.2 Assessment of forest habitats


5.3 Mapping landscape metrics by using GIS


5.4 Using landscape metrics in modeling


6. Future perspectives on mapping patterns


6.1 3D landscape metrics


6.2 4D landscape metrics


7. Conclusions


Chapter 7: Towards automated forest mapping

1. Introduction


1.1 Definitions


1.1.1 Forest 


1.1.2 Remote sensing for automated mapping of woodland and forest


2. Data and Pre-processing


2.1 Reference data 


2.2 Remote sensing systems


2.3 Processing of input data sets


3. Mapping woodland 


3.1 A hierarchical segmentation approach for mapping woodland 


3.2 Individual tree and tree crown detection 


3.3 Fractional tree cover approach


4. Forest mapping


4.1 Moving window approach


4.2 Distance criterion approach


5. Lessons learned


6. Future perspectives


Epilogue: Toward more efficient and effective applications of forest landscape maps


1. Background


2. Goals of this chapter


3. Considerations in forest landscape mapping


3.1. The community of map developers and users is broad


3.2. Maps are model outputs 


3.3. Maps are probabilistic


3.4. Maps contain errors


3.5. Map contents are scale-related


3.6. Map applications are scale-related


3.7. Mapping methods are advancing rapidly


4. A brief list of best practices for using forest landscape maps


5. Conclusions


Circa l’autore

Tarmo K. Remmel, Ph.D. (University of Toronto), Associate Professor of Geography at York University: A GIScientist with over 10 years of experience teaching and conducting research involving remote sensing, GIS, and spatial statistics, Dr. Remmel focuses primarily on boreal forests, with a particular emphasis on wildfire disturbances and on the development of algorithms for measuring and assessing spatial patterns, planar shapes, and the quantification of spatial change and accuracy. A strong proponent of free and open source software tools, particularly within the R-project to facilitate implementation, his work integrates field-level data collection with remotely sensed imagery obtained from satellite, aircraft, and UAV platforms to characterize the effects of scale.
Ajith H. Perera, Ph.D. (Penn State University), Senior Research Scientist and leader of the forest landscape ecology program at Ontario Forest Research Institute, Ontario Ministry of Natural Resources, adjunct professor at University of Waterloo, York University and University of Guelph: With over 25 years research experience in landscape ecology, Dr. Perera’s major focus is on quantifying and modeling spatio-temporal patterns in boreal forest disturbances. He has authored over 150 science publications, and been senior editor, co-editor and author of eight books on Forest Landscape Ecology.

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Lingua Inglese ● Formato PDF ● Pagine 326 ● ISBN 9781493973316 ● Dimensione 15.5 MB ● Editore Tarmo K. Remmel & Ajith H. Perera ● Casa editrice Springer New York ● Città NY ● Paese US ● Pubblicato 2017 ● Scaricabile 24 mesi ● Moneta EUR ● ID 5215811 ● Protezione dalla copia Adobe DRM
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