关于现代林草业可持续发展的几点战略思考

doi:10.11707/j.1001-7488.LYKX20250325

Abstract

Abstract:

This paper mainly discussed the substance, implications and sustainable development routes of modern forestry and grassland sector. First of all, it looked at the forestry and grassland sector as the undertakings of natural resource management in the light of idea formation and development process of sustainable development and ecological civilization, it is one of the supporting sectors for the ecological civilization construction. Secondly, it is made clear that forestry and grassland sector is the main pillar for the part of ecological conservation, remediation and construction in the scope of ecological civilization construction, it is also an industry sector with the material production functions. After the separate and deliberate analyses in the three ecosystem categories (natural ecosystem, artificial ecosystem and higher degree regional ecosystem) and in huge effectiveness produced by the four ecosystem service functions (provisional, regulatory, cultural and supportive) of forest and grassland sector, it is indicated that the dual identity of forest and grassland sector is specific to it and its superiority. Three big endeavors should be done for the accomplishment of success both in the ecological construction and industrial sector of forest and grassland, they are: ecological protection, scientific greening and sustainable management of forest and grassland. Based on the analysis of implications and principle guidelines of these routes, some basic conclusions have been made: simultaneously protect, enlarge and raise up the green space, run the tricycle of ecological protection, scientific greening and sustainable management of forest and grassland vigorously, it will make the forest and grassland sector a strong pillar for the modern ecological civilization construction, and the forestry and grassland sector will be raised up to a prosperous industrial sector for a rich and powerful nation.

Key words: forestry and grassland sector, ecological civilization construction, ecological conservation and construction, industrial sector, scientific greening, sustainable management of forest and grassland

CLC Number:

Guofang Shen. Some Strategic Considerations on the Sustainable Development of Modern Forestry and Grassland Sector[J]. Scientia Silvae Sinicae, 2025, 61(7): 1-7.

Figures/Tables 3

Table 1

Table 2

Table 3

References 0

	沈国舫. 1995. 走向21世纪的林业学科发展趋势及高级人才的培养// 国家教育委员会高等教育司. 当代科学技术发展与教学改革“面向21世纪教学内容和课程体系改革报告会”论文集. 北京: 高等教育出版社.
	Shen G F. 1995. Development trends of forestry disciplines towards the 21st century and training of high-level professionals//Higher Department of State Education Commission. Collection of papers from“seminar on teaching content and curriculum system reform for the 21st century”, Contemporary science and technology development and teaching reform. Beijing: Higher Education Press.［In Chinese］
	沈国舫. 2000. 中国森林资源与可持续发展.南宁: 广西科学技术出版社.
	Shen G F. 2000. Forest resources and sustainable development in China. Nanning: Guangxi Science and Technology Press.［In Chinese］
	沈国舫. 关于林业作为一个产业的几点认识. 中国林业产业, 2004, (1): 1- 3.
	Shen G F. Understanding forestry as an industry sector. China Forestry Industry, 2004, (1): 1- 3.
	沈国舫. 关于“生态保护和建设”名称和内涵的探讨. 生态学报, 2014, 34 (7): 1891- 1895.
	Shen G F. Discussion on the terminology and connotation of “ecological protection and construction”. Acta Ecologica Sinica, 2014, 34 (7): 1891- 1895.
	沈国舫. 2015. 生物碳汇扩增战略研究. 北京: 科学出版社.
	Shen G F. 2015. Strategic research on biological carbon sink expansion. Beijing: Science Press.［In Chinese］
	沈国舫. 2016. 从生态修复的概念说起. 浙江日报理论版, 2016−04−21.
	Shen G F. 2016. Starting from the concept of ecological remediation. Zhejiang Daily, Theoretical Section, 2016−04−21.［In Chinese］
	沈国舫. 2017. 两山论与生态系统可持续经营. 中国绿色时报, 2017−12−18, 1−2版.
	Shen G F. 2017. The “Two Mountains” Theory and sustainable ecosystem management. China Green Times, 2017−12−18, Page 1−2.［In Chinese］
	沈国舫. 2022. 伐木无过, 可持续经营森林更有功. 中国科学报, 2022−03−28, 11版.
	Shen G F. 2022. No fault in logging, greater merit in sustainable forest management. China Science Daily, 2022−03−28, Page 11.［In Chinese］
	沈国舫. 2024. 森林可持续经营和生态文明建设. 中国水土保持, (1): 1−5.
	Shen G F. 2024. Sustainable forest management and ecological civilization construction. Soil and Water Conservation in China, (1): 1−5.［In Chinese］
	沈国舫, 吴斌, 张守攻, 等. 2017. 新时期国家生态保护和建设研究. 北京: 科学出版社.
	Shen G F, Wu B, Zhang S G, et al. 2017. Research on national ecological protection and construction in the new era. Beijing: Science Press.［In Chinese］
	中共中央国务院. 2015. 关于加快生态文明建设的意见. 国务院公报, 2015年第14号. https://www.gov.cn/gongbao/content/2015/content_2864050.htm.
	Central Committee of the CPC & State Council. 2015. Opinions on accelerating ecological civilization construction. State Council Gazette, No. 14.［In Chinese］

自然保存及退化程度 Preservation and degradation degree	治理对策 Governance strategies
原始状态或近原始状态保存的生态系统 Pristine or near-pristine preserved ecosystems	生态保护，包括设置各种类型的自然保护地，特别是自然保护区，普遍的生物多样性保护及可持续经营 Ecological protection， involving establishing various types of protected areas （particularly natural reserves）， along with widespread biodiversity preservation and sustainable management
轻微退化的生态系统 Slightly degraded ecosystems	生态保育，在保护的基础上适当增加抚育管理及促进更新等措施 Ecological conservation， involving appropriately incorporating rehabilitation management and regeneration enhancement measures based on protection
退化（的生态系统 Degraded ecosystems	生态修复，在保育的基础上增加强有力的措施以修复生态系统的结构、过程和功能 Ecological remediation， entailing implementing robust interventions beyond conservation to restore ecosystem structure， processes， and function
被破坏的或消失的生态系统 Destroyed or disappeared ecosystems	按原有生态系统模式重建生态系统或在已改变了的条件下新建生态系统，如造林、种草 Ecosystems need restoration based on original reference models， or undergo new establishment under altered conditions， such as afforestation and grass sowing

人工生态系统 Artificial ecosystems	治理措施 Governance activities
农耕地及人工草场 Farmland and pasture	土壤修复改良Soil remediation and amelioration 防护林体系建设Establishment of shelterbelt system 退耕还林、还草、还湿Conversion of farmland to forest，grassland or wetland 农林复合经营Agroforestry 生态循环农业Ecological circulative agriculture
城镇地区Urban area	城镇植树造林及城市林业Urban forestry 风景园林建设，包括公园和花园建设、道路绿化、庭院绿化及垂直绿化 Landscape architecture， encompassing park and garden construction， roadside greening， courtyard greening， and vertical greening 人工垦复的海岸滩地的生态建设 Ecological development of artificially reclaimed coastal tidelands
不同类型的基础设施建设区域Different types of infrastructure and construction sites	废弃或坍塌矿区修复Mine site remediation 厂矿污染用地的修复Brown field restoration 厂区绿化Greening of industrial site 道路、场站、管道、高压线路建设损伤地区的修复 Damaged infrastructure site remediation for areas affected by construction of roads， stations， pipelines， and high-voltage power lines 海岸滩涂、水库岸修复等等 Shoreline rehabilitation of coastal mudflats and reservoir banks，etc.

高层次生态系统 High-level ecosystem	治理对策 Governance strategies
生态景观Landscape	根据自然规律在景观区域内进行土地利用规划，调整景观内各生态系统的类型和大小，使之更为和谐健康 Landscape-scale land use planning guided by natural laws， optimizing ecosystem types/sizes for enhanced harmony and health
中小流域 Small and medium watershed	在山水林田湖草沙自然生态系统合理布局及综合治理基础上对各生态系统进行保育、修复乃至重建新建林草植被 Implementing conservation， remediation， restoration & new establishment of vegetation across integrated and rationally allocated mountains-waters-forests-fields-lakes-grasses-sands systems
区域（江河流域或山系）治理Region（river watershed and mountain range）	在自然生态系统综合治理和社会对土地合理需求（城市、乡村、交通、管线等）相结合的基础上进行宏观的土地利用规划，各生态系统的保育、修复、重建或新建，机构设置，政策调控及经费安排 Macro-scale land use planning balancing natural ecosystem management with societal land demands （urban/rural/transport/pipelines）， coupled with ecosystem conservation/remediation/restoration/new establishment， as well as institutional， policy and financial measures
大陆及地球生物圈 Continent and biosphere	以上各项措施的总和加上更加强调生物多样性保护和碳汇扩增 Integration of all above mentioned measures with heightened emphasis on biodiversity preservation and carbon sink expansion

[1]	Zeyu Cui,Huaiqing Zhang,Yang Liu,Jing Zhang,Tingdong Yang,Rurao Fu. Progress and Applications of 3D Modeling and Visualization Simulation Technology for Trees [J]. Scientia Silvae Sinicae, 2025, 61(6): 1-12.
[2]	Jiamin Wu,Yaxin Wang,Bin Sun,Zhijie Ma,Weina Sun,Liang Hong. Remote Sensing Estimation of Biomass of Caragana korshinskii with UAV [J]. Scientia Silvae Sinicae, 2025, 61(6): 13-24.
[3]	Chenxu Wu,Dongyan Zhang,Lanxiang Zhang,Nuo Chen,Siyu Mao. Detection Method of Pinecones in the Forest Based on RT-DETR [J]. Scientia Silvae Sinicae, 2025, 61(6): 25-37.
[4]	Xueyang Hu,Yili Zheng,Jiayuan Tian,Zhenxiang Zhang. Tree Ring Detection Method with Micro-Drilling Resistance Based on Pressure Sensing [J]. Scientia Silvae Sinicae, 2025, 61(6): 38-48.
[5]	Yue Fei,Junhui Wang,Nan Lu,Miaomiao Zhang. Establishment of a Transient Gene Silencing System in Catalpa bungei Based on PDS Homologous Genes [J]. Scientia Silvae Sinicae, 2025, 61(6): 49-60.
[6]	Jianwen Hu,Changfu Liu,Mengmeng Gou,Lei Lei,Huiling Chen,Jiajia Zhang,Sufeng Zhu,Ruyuan Hu,Wenfa Xiao. Response and Driving Factors of Soil Organic Carbon and Its Fractions to Stand Age in Pinus massoniana Plantation [J]. Scientia Silvae Sinicae, 2025, 61(6): 75-84.
[7]	Jiayu Chen,Zhehan Li,Pingxin Zhao,Xiaoyu Zhan,Yuanfan Ma,Futao Guo. Effects of Soil Physicochemical Properties on Emission Characteristics of Biogenic Volatile Organic Compounds from Cunninghamia lanceolata under Forest Fire Smoke Deposition [J]. Scientia Silvae Sinicae, 2025, 61(6): 85-98.
[8]	Xiaohang Bai,Jieping Chen. Public Preference and Perception for Cultural Ecosystem Services of Urban Forest Parks [J]. Scientia Silvae Sinicae, 2025, 61(6): 99-108.
[9]	Yadi Wu,Shu Diao,Xianyin Ding,Qinyun Huang,Qifu Luan. Construction of a DNA Fingerprinting of Elite Varieties of Introduced Exotic Pines in China Based on 51K Liquid-Phased Probes [J]. Scientia Silvae Sinicae, 2025, 61(6): 109-119.
[10]	Haobo Zhao,Zhongping Feng,Chengzhong Zheng,Yongbin Qiu,Linhui An,Guoqing Jin,zhen Zhang. Family-Environment Interaction and Key Influencing Factors of Growth Traits of Cupressus funebris [J]. Scientia Silvae Sinicae, 2025, 61(6): 120-129.
[11]	Shan Zhao,Jing Dong,Shuai Zheng,Faju Chen,Wen Liu,Hongwei Liang. Reasons for the Difficulty of Differentiation of Embryogenic Callus in Long-Term Subculture of Catalpa bungei [J]. Scientia Silvae Sinicae, 2025, 61(6): 130-138.
[12]	Wenbin Duan,Xianglong Xu,Jie Gao,Yi Liu,Yuanxing Ye,Changqing Ding. Age Difference of Male and Female Individuals in Natural Breeding Effectiveness of the Captive Nipponia nippon [J]. Scientia Silvae Sinicae, 2025, 61(6): 139-146.
[13]	Junyao Zhang,Chenliang Li,Hui Liu,Chunming Duan,Haicong Zeng,Jianan Wang. Diversity Characteristics and Influencing Factors of Pollinating Insects in Urban Green Corridors in Hefei City [J]. Scientia Silvae Sinicae, 2025, 61(6): 147-158.
[14]	Caiyao Xu,Yiying Qian,Fanbin Kong,Shuifa Ke,Hao Wang. Theoretical Logic and Mechanism of Rural Digitalization Affecting the Development of Forestry New Quality Productive Forces [J]. Scientia Silvae Sinicae, 2025, 61(6): 159-182.
[15]	Shaopeng Zhang,Yao Fu,Hongge Zhu,Menghan Zhao. Impact of Natural Forest Protection Policies in Key State-Owned Forest Areas on the New Quality Productivity of Forestry: Based on the Perspective of Forestry Green Total Factor Productivity [J]. Scientia Silvae Sinicae, 2025, 61(6): 183-195.

Some Strategic Considerations on the Sustainable Development of Modern Forestry and Grassland Sector

RichHTML

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

Figures/Tables 3

References 0

Related Articles 15

Recommended Articles

Metrics

Comments