Foreword to the Series
Foreword
Preface
CHAPTER 1 GENERAL INTRODUCTION
1.1 Global CO2 flux networks
1.2 Methods used in CO2 flux estimation
1.3 Advances in CO2 flux study by ecophysiological method
1.4 Questions to be considered
1.5 Research objectives and goal0
CHAPTER 2 STUDY SITES
2.1 Environmental conditions
2.2 Stand structure and experiments
2.3 Equipments setting
CHAPTER 3 FUNCTION OF LARCH CANOPY
3.1 Photosynthetic difference in different position of one canopy
3.2 Photosynthetic seasonal changes of heterophyllous larch shoots
3.3 Scaling up from chamber measurement to canopy level
3.4 Concluding remarks
CHAPTER 4 RESPIRATION OF STEM
4.1 Comparison among species
4.2 External factors affecting respiration
4.3 Internal factors affecting respiration
4.4 Estimation of total stem respiration
4.5 Concluding remarks
CHAPTER 5 RESPIRATION OF BRANCH AND CONE
5.1 Respiration from branches
5.2 Respiration of cones
5.3 Concluding remarks
CHAPTER 6 RESPIRATION FROM SOIL
6.1 Methodological consideration
6.2 Spatial variation of soil respiration
6.3 Comparison of soil respiration among forest types
6.4 Scaling up of soil respiration and its components from soil-microbe, litter and roots
6.5 Concluding remarks
CHAPTER 7 PHOTOSYNTHESIS OF UNDERSTORIES
7.1 Material and methods
7.2 Results
7.3 Discussion
7.4 Concluding remarks
CHAPTER 8 CO2 FLUX BY EDDY COVARIANCE ESTIMATION
8.1 Material and method
8.2 Results
8.3 Discussion
8.4 Concluding remarks
CHAPTER 9 BIOMASS AND PRODUCTIVITY
9.1 Data acquisition and analysis
9.2 Results and discussion
9.3 Concluding remarks
CHAPTER 10 GENERAL DISCUSSION ON CARBON BUDGET
10.1 NPP comparison among larch forests
10.2 Contribution of respiration to the carbon flux
10.3 Improving the carbon sink capacity in light of respiratory consumption in Northeast China
CHAPTER 11 CONCLUSIONS
11.1 Carbon fixation by dominant canopy, shrubs and grasses
11.2 Respiratory consumption of stems
11.3 Respiration of branches and cones
11.4 Respiration of soil
11.5 Carbon budget of the larch plantation
Abbreviations
References
叢書序言
序言
前言
第1章 緒論
1.1 全球CO2通量網絡
1.2 CO2通量的估計方法
1.3 生理生態(tài)學方法的研究進展
1.4 問題提出
1.5 研究目標
第2章 研究地點
2.1 環(huán)境條件
2.2 林分結構與實驗內容
2.3 儀器設置
第3章 落葉松林冠的光合作用
3.1 同一林冠不同位置葉片光合差異
3.2 異型枝葉片光合的年、季變化
3.3 測定室測定到冠層的尺度上推
3.4 小結
第4章 樹干呼吸
4.1 種間比較
4.2 影響呼吸的外界環(huán)境因素
4.3 影響呼吸的內在因素
4.4 總樹干呼吸的估計
4.5 小結
第5章 樹枝與球果的呼吸
5.1 樹枝呼吸
5.2 球果呼吸
5.3 小結
第6章 土壤呼吸
6.1 測定方法學的探討
6.2 土壤呼吸的空間變化
6.3 不同林分類型土壤呼吸的年、季變化
6.4 不同土壤呼吸組分的尺度上推
6.5 小結
第7章 林下植物的光合作用
7.1 材料與方法
7.2 結果
7.3 討論
7.4 小結
第8章 渦度協(xié)方差法對CO2通量的初步估計
8.1 材料與方法
8.2 結果
8.3 討論
8.4 小結
第9章 生物量和生產力
9.1 數(shù)據(jù)收集與分析
9.2 結果與討論
9.3 小結
第10章 林分碳收支的綜論
10.1 不同落葉松林NPP比較
10.2 呼吸對CO2通量的貢獻
10.3 提高林分碳庫的建議
第11章 結論
11.1 主林層、灌木和草本層的碳固定
11.2 樹干呼吸消耗
11.3 樹枝和球果呼吸
11.4 土壤呼吸
11.5 落葉松林的碳收支
縮寫
參考文獻