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Boreal Forest and Climate Change 1st ed. 2008. Corr. 2nd printing 2009 [Hardback]

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  • Formāts: Hardback, 582 pages, height x width: 235x155 mm, weight: 1082 g, XXIX, 582 p., 1 Hardback
  • Sērija : Advances in Global Change Research 34
  • Izdošanas datums: 23-Sep-2008
  • Izdevniecība: Springer-Verlag New York Inc.
  • ISBN-10: 1402087179
  • ISBN-13: 9781402087172
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Boreal Forest and Climate Change 1st ed. 2008. Corr. 2nd printing 2009Palielināt
  • Formāts: Hardback, 582 pages, height x width: 235x155 mm, weight: 1082 g, XXIX, 582 p., 1 Hardback
  • Sērija : Advances in Global Change Research 34
  • Izdošanas datums: 23-Sep-2008
  • Izdevniecība: Springer-Verlag New York Inc.
  • ISBN-10: 1402087179
  • ISBN-13: 9781402087172
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781402087172.html
Keywords:
An active co-operation between forest ecologists and physicist has continued for decades at the University of Helsinki. These scientists have the common vision that material and energy fluxes are the key to a proper understanding of natural phenomena. The authors of this book come from very different disciplines: tree ecophysiology, silviculture, aerosol physics, meteorology, soil science, microbiology, botany and applied electronics. However, the shared vision has resulted in coherent research which crosses the disciplinary bounders and has produced an integrated programme covering a range of temporal and spatial scales.The measurements at two long-term stations SMEARI and II have been designed to study material and energy fluxes over forests at two geophysical locations. The result is a unique data set, providing insights into the climatological control of the carbon cycle in coniferous forests of northern Europe. The analysis starts from the space and time element level and is extended via ecosystems to boreal forests. The predictive power of the several theories proposed is high.There are several crucial feedbacks from forests to the climate system. The mechanisms for those feedbacks are elaborated in the book: they involve changes in the carbon cycle, albedo, N2O emissions and the production of aerosols. Much of this work is new and the feedback relationships have not yet incorporated in models of the climate system.The book will be an important introduction for students and climate modellers alike, providing conceptual tools and ideas that are broadly applicable to terrestrial systems.

Recenzijas

From the reviews:









"Boreal forest and climate change is a much-needed addition to the literature on the subject. the book provides detailed, nicely illustrated insights into both conceptual and mechanistic process models describing aspects of these theories and associated processes, their interactions, and scale dependence. the book is most appropriate as a high-level scientific treatise for those with a keen interest in the biophysical aspects of measuring and modeling ecosystem-atmosphere exchange. this book is a veritable treasure trove of information on the subject." (Scott Goetz, Ecology, Vol. 80 (7), 2009)

Definitions xiii
Contributors xxv
1 Introduction
1
1.1 Background
1
1.2 Theoretical Tools
4
1.3 The Aim of the Book
10
2 Methodologies
13
2.1 Background
13
2.2 Dynamic Modelling
14
2.3 Statistical Methods
16
2.4 On Field Measurements
20
2.4.1 Background
20
2.4.2 Measuring Strategy
22
2.4.3 Accuracy and Precision
23
2.4.4 Measurement Setup
24
2.4.5 Planning of Measurements
44
2.5 SMEAR Network
46
2.5.1 Description of Stations
47
2.5.2 Measuring Accuracy and Precision at SMEAR I and II
52
2.5.3 Examples of a Measured Time Series
55
3 Environmental Factors
57
3.1 Annual Cycle of Environmental Factors
57
3.2 Temporal and Spatial Variation: Atmosphere
65
3.3 Temporal and Spatial Variation: Soil
72
4 Transport
75
4.1 Molecular Transport
75
4.2 Convection
81
4.2.1 Laminar and Turbulent Flows
81
4.2.2 Eddy Covariance and Ecosystem Fluxes
85
4.3 Radiative Transport
87
4.4 Summary of Transport Phenomena
87
5 Structure
89
5.1 Hierarchy of Structure
89
5.2 Vegetation
90
5.2.1 Chemical Structure
90
5.2.2 Cellular Level
103
5.2.3 Tissue
106
5.2.4 Organs
111
5.2.5 Individual
117
5.2.6 Stand
121
5.2.7 Boreal Zone
124
5.2.8 Quantitative Description of Vegetation Structure
126
5.3 Structure of the Atmosphere
127
5.4 Soil
132
5.4.1 Mineral Soil
132
5.4.2 Soil Organic Matter
133
5.4.3 Soil Structure, Water and Air
138
5.4.4 Soil Organisms
141
5.4.5 Soil Horizons and Distribution
142
6 Processes
143
6.1 Temporal and Spatial Scale of Processes and Fluxes
143
6.2 Physical and Chemical Processes
144
6.2.1 Phase Transitions and Energy Exchange
144
6.2.2 Chemical Reactions in the Air
156
6.2.3 Aerosol Formation and Growth
167
6.2.4 Ion Exchange and Retention
171
6.3 Vegetation Processes
172
6.3.1 General
172
6.3.2 Stable Functional Substances
176
6.3.3 Changing Functional Substances
222
6.4 Soil Processes
269
6.4.1 Decomposition of Soil Organic Matter
269
6.4.2 Nitrogen Processes in Soil
271
6.4.3 Methane Processes in Soil
277
7 From Processes and Transport to Trees, Ecosystems and Atmosphere
281
7.1 Mathematical Tools
281
7.2 Atmospheric Processes and Transport
284
7.2.1 Conservation Principles
285
7.2.2 Continuity Equation
286
7.2.3 Energy Equation
288
7.2.4 Continuity Equation for Each Species in a Multicomponent Mixture
289
7.2.5 Equation of Motion
290
7.2.6 Use of the Equations of Change to Solve Transport Problems
292
7.2.7 Heat Transport and Exchange in the Atmosphere and Between Atmosphere and Surface
293
7.2.8 Basic Equations of Atmospheric Models
295
7.3 Environmental Factors in the Canopy
298
7.3.1 Short-Wave Solar Radiation
298
7.3.2 Radiation Balance
302
7.3.3 Vertical Profiles and Fluxes
303
7.4 Environmental Factors in Soil
306
7.4.1 Classification and Distribution of Boreal Forest Soils
307
7.4.2 Description of a Podsolic Soil Profile and Podsol Formation
307
7.5 Tree Level
313
7.5.1 Photosynthetic Production of a Tree
313
7.5.2 Long-Distance Transport of Water and Solutes in Trees
325
7.6 Stand Level
343
7.6.1 CO2 in Soil
343
7.6.2 Forest Ecosystem CO2 Exchange
351
7.6.3 Maximum Transpiration Rate and Water Tension During Drought
382
7.6.4 Fluxes and Concentrations of N2O in Boreal Forest Soil
387
7.6.5 Methane Fluxes in Boreal Forest Soil
393
7.7 Reactive Gases in the Air
398
7.7.1 Ozone
398
7.7.2 Sulphuric Acid
407
7.7.3 Reactive Biogenic VOCs
408
7.8 Aerosol Particles in the Air
409
7.8.1 Atmospheric Aerosol Concentrations
409
7.8.2 Profiles
411
7.8.3 Nucleation Event Annual Cycles
414
7.9 Annual Energy, Carbon, Nitrogen and Water Fluxes and Amounts at SMEAR II
416
7.9.1 Energy Fluxes as Radiation and as Organic Matter
416
7.9.2 Carbon Pools and Fluxes
417
7.9.3 Mean Residence Time of Carbon
418
7.9.4 Water Pools and Fluxes
419
7.9.5 Mean Residence Time of Water
420
7.9.6 Nitrogen Pools and Fluxes
420
7.9.7 Mean Residence Time of Nitrogen
422
7.9.8 Comparison of Fluxes, Pools and Residence Times
423
8 Connections Between Processes, Transport and Structure
425
8.1 Emergent Properties
425
8.2 Functional Role of Structure and Growth of Trees
426
8.3 Structural Regularities Generated by Water Transport
429
8.4 Balance Between Photosynthesis and Nitrogen Uptake
431
9 MicroForest
433
9.1 Growth and Development of Forest Ecosystems; the MicroForest Model
433
9.1.1 Background
433
9.1.2 Carbon and Nitrogen Fluxes in a Forest Ecosystem
434
9.1.3 Trees
436
9.1.4 Ground Vegetation
446
9.1.5 Soil
447
9.1.6 Parameter Values
451
9.1.7 Simulations
453
9.1.8 Comments on MicroForest
458
9.2 Testing MicroForest
461
9.2.1 Need for Rigorous Testing
461
9.2.2 Test with Six Stands near SMEAR II
463
9.2.3 Test in Estonia at the Southern Border of the Boreal Zone
468
9.2.4 Test at Northern Timber Line
472
9.2.5 Evaluation of the Performance of MicroForest
476
10 Interactions Between Boreal Forests and Climate Change 479
10.1 Climate Change
479
10.1.1 Mechanisms of Climate Change
479
10.1.2 Observed Changes in Climate
483
10.1.3 Global Climate Models
487
10.1.4 Projected Climate Changes for the Rest of the 21st Century
488
10.2 Climate Change and Boreal Forests
493
10.2.1 The Approach
493
10.2.2 Process Responses to Climate Change
494
10.2.3 Ecosystem Responses to Climate Change
496
10.2.4 Response of Boreal Forests to Climate Change
499
10.3 Feedback from Boreal Forests to Climate Change
503
10.3.1 Carbon Sequestration
503
10.3.2 N20 Emissions from Boreal Forests
504
10.3.3 CH4 Fluxes in Changing Climate
506
10.3.4 Climatic Effects of Increased Leaf Area: Reduced Surface Albedo and Increased Transpiration
508
10.3.5 BVOC Emissions from Boreal Forests
516
10.3.6 Climatic Effects of Increasing Aerosols
517
10.4 Evaluation of the Connections Between Boreal Forests and Climate Change
519
10.4.1 Climate Change
519
10.4.2 Responses of Boreal Forests
523
10.4.3 Feedbacks from Boreal Forests
525
11 Concluding Remarks 529
References 533
Index 577