Research Progress of International Bamboo Forest Carbon Sequestration in the Last 30 Years Based on Bibliometric Analysis

ZHANG Hong-yan; ZHOU Yu-feng; ZHANG Yuan; XU Xiao-jun; LI Chong; XU Lin

Volume 39 Issue 1

Apr. 2021

Turn off MathJax

Article Contents

Article Navigation > JOURNAL OF BAMBOO RESEARCH > 2020 > 39(1): 13-23

ZHANG Hong-yan, ZHOU Yu-feng, ZHANG Yuan, XU Xiao-jun, LI Chong, XU Lin. Research Progress of International Bamboo Forest Carbon Sequestration in the Last 30 Years Based on Bibliometric Analysis[J]. JOURNAL OF BAMBOO RESEARCH, 2020, 39(1): 13-23.

Citation:

PDF( 6284 KB)

Research Progress of International Bamboo Forest Carbon Sequestration in the Last 30 Years Based on Bibliometric Analysis

1. Library of Zhejiang A&F University, Hangzhou 311300, Zhejiang, China;
2. State Key Laboratory of Subtropical Silviculture, Zhejiang Provincial Key Laboratory of Carbon Cycling in Forest Ecosystems and Carbon Sequestration, Zhejiang A&F University, Hangzhou 311300, Zhejiang, China

Received Date: 2019-12-14
Available Online: 2021-04-29
Publish Date: 2021-04-29

Abstract

Abstract

Based on the method of bibliometrics,the paper aims to evaluate the international research progress of bamboo carbon sequestration,introduce its international research frontier,and further promote its development in China. Using Vosviewer software and Bibliometrics method,the course of international bamboo carbon sequestration research in the past 30 years was analyzed based on the core collection of web of science database. The results showed that the number of literatures on international bamboo carbon sequestration research increased in a blowout way. Bamboo carbon sequestration research was mainly concentrated in China,the United States and Japan,and the authors presented the pattern of large dispersion and small aggregation. The research directions showed a diversified trend,and most research has been done in the field of environmental science. The funding for bamboo carbon sequestration research was mainly from the National Natural Science Foundation of China, totally,354 references was funded by the NNSF with the highest h-index. At present,the research content of bamboo carbon sequestration is gradually diversified. In recent years,it has become a research hotspot in the precision monitoring of bamboo ecosystem carbon sequestration,the effect mechanism of bamboo carbon sequestration,the mechanism of soil microbe and soil carbon cycle. Through the analysis of key words co-occurrence at home and abroad,this paper revealed the background of the whole research in the field of bamboo carbon sequestration,analyzed its stage process,and described its hot spot and development trend. This may has certain reference value for the future research.
- Bamboo forest carbon sequestration,
- Incites,
- Vosviewer,
- Bibliometric analysis,
- Knowledge graph

FullText(HTML)

References(36)

References

[1]	张旭博,孙楠,徐明岗,等.全球气候变化下中国农田土壤碳库未来变化[J].中国农业科学,2014,47(23):4648-4657.
[2]	周国模. 毛竹林生态系统中碳储量、固定及其分配与分布的研究[D].杭州:浙江大学,2006.
[3]	Zhou G M,Meng C F,Jiang P K,et al.Review of carbon fixation in bamboo forests in China[J].Botanical Review,2011,77(3):262-270.
[4]	陈茂铨,金晓春,吴林森,等.竹林碳汇功能及其影响因子研究进展[J].竹子研究汇刊,2010,29(3):5-9.
[5]	Li L L,Ding G H,Feng N,et al. Global stem cell research trend:bibliometric analysis as a tool for mapping of trends from 1991 to 2006[J]. Scientometrics,2009,80(1):39-58.
[6]	张哲,沈月琴,龙飞,等.森林碳汇研究的知识图谱分析[J].浙江农林大学学报,2013,30(4):567-577.
[7]	Huang Li,Zhou Mi,Lv Jie,et al. Trends in global research in forest carbon sequestration:A bibliometric analysis.Journal of Cleaner Production[J].Journal of Cleaner Production.DOI: 10.1016/j.jclepro.2019.119908.
[8]	蔡函江,毕毓芳,潘雁红,等.近10年浙江竹类文献分析研究[J].竹子学报,2017,36(2):16-20.
[9]	戴庆敏,徐传保. 2000-2015年世界竹研究文献分析[J].竹子学报,2017,36(2):9-15.
[10]	赵海莉,张婧.基于Citespace和Vosviewer的中国水旱灾害研究进展与热点分析[J].生态学报,2020(12):1-10.
[11]	Tripathi S K,Singh,K P. Culm recruitment,dry matter dynamics and carbon flux in recently harvested and mature bamboo savannas in the Indian dry tropics. Ecological Research[J].Ecological Research,1996,11(2):149-164.
[12]	Chen X G,Zhang X Q,Zhang Y P,et al.Changes of carbon stocks in bamboo stands in China during 100 years[J].Forest Ecology and Management,2009,258(7):1489-1496.
[13]	Song X Z,Zhou G M,Jiang H,et al. Carbon sequestration by Chinese bamboo forests and their ecological benefits:assessment of potential,problems,and future challenges[J].Environmental Reviews,2011,19:418-428.
[14]	Li T T,Tong Z H,Gao B,et al. Polyethyleneimine-modified biochar for enhanced phosphate adsorption[J]. Environmental Science and Pollution Research,2019,27(7):7420-7429.
[15]	Antal M J,Allen S G,Dai X F,et al.Attainment of the theoretical yield of carbon from biomass[J]. Industrial & Engineering Chemistry Research,2000,39(11):4024-4031.
[16]	Yuen J Q,Fung T,Ziegler A D. Carbon stocks in bamboo ecosystems worldwide:Estimates and uncertainties[J]. Forest Ecology and Management,2017,393:113-138.
[17]	Deng J,Xiong T Y,Xu F,et al.Inspired by bread leavening:one-pot synthesis of hierarchically porous carbon for supercapacitors[J]. Green Chemistry,2015,17(7):4053-4060.
[18]	Gong Y N,Li D L,Luo C Z,et al.Highly porous graphitic biomass carbon as advanced electrode materials for supercapacitors[J]. Green Chemistry,2017,19(17):4132-4140.
[19]	Tian W Q,Gao Q M,Tan Y L,et al.Bio-inspired beehive-like hierarchical nanoporous carbon derived from bamboo-based industrial by-product as a high performance supercapacitor electrode material[J].Journal of Materials Chemistry,2015,3(10):5656-5664.
[20]	Zhang X P,Gao G B,Wu Z Z,et al.Responses of soil nutrients and microbial communities to intercropping medicinal plants in moso bamboo plantations in subtropical China[J].Environmental Science and Pollution Research,2020,27(2):301-2310.
[21]	Li Y C,Li Y F,Chang S X,et al.Linking soil fungal community structure and function to soil organic carbon chemical composition in intensively managed subtropical bamboo forests[J].Soil Biology & Biochemistry,2017,107:19-31.
[22]	Lu W W,Ding W X,Zhang J H,et al. Biochar suppressed the decomposition of organic carbon in a cultivated sandy loam soil:A negative priming effect[J]. Soil Biology&Biochemistry,2014,76:12-21.
[23]	Embaye K,Weih M,Ledin S,et al.Biomass and nutrient distribution in a highland bamboo forest in southwest Ethiopia:implications for management[J].Forest Ecology and Management,2005,204(2/3):159-169.
[24]	Yao X,Yu K Y,Deng Y B,et al.S patial distribution of soil organic carbon stocks in Masson pine (Pinus massoniana) forests in subtropical China[J].Catena,2019,178:189-198.
[25]	Castaneda-Mendoza A,Vargas-Hernandez J,Gomez-Guerrero A,et al.Carbon accumulation in the aboveground biomass of a Bambusa oldhamii plantation[J].Agrociencia,2005,39(1):107-116.
[26]	Zhou G M,Xu J M,Jiang P K.Effect of management practices on seasonal dynamics of organic carbon in soils under bamboo plantations[J]. Pedosphere,2006,16(4):525-531.
[27]	Yen T M,Ji Y J,Lee J S.Estimating biomass production and carbon storage for a fast-growing makino bamboo (Phyllostachys makinoi) plant based on the diameter distribution model. Forest Ecology and Management[J].2010,260(3):339-344.
[28]	Zhou G M,Xu X J,Du H Q,et al.Estimating Aboveground Carbon of Moso Bamboo Forests Using the k Nearest Neighbors Technique and Satellite Imagery. Photogrammetric engineering and remote sensing[J].2011,77(11):1123-1131.
[29]	Zhang G X,Chen Y M,Chen Y G,et al. Activated biomass carbon made from bamboo as electrode material for supercapacitors[J].Materials Research Bulletin,2018,102:391-398.
[30]	Xuejian Li,Huaqiang Du,Fangjie Mao,et al. Estimating bamboo forest aboveground biomass using EnKF-assimilated MODIS LAI spatiotemporal data and machine learning algorithms[J]. Agricultural and Forest Meteorology,2018,256:445-457.
[31]	Du H Q,Mao F J,Zhou G M,et al.Estimating and analyzing the spatiotemporal pattern of aboveground carbon in bamboo forest by combining remote sensing data and improved BIOME-BGC model[J]. IEEE Journal of Selected Topic in Applied Earth Observations and Remote Sensing,2018,11(7):2282-2295.
[32]	Chen J H,Wu Q F,Li S H,et al. Diversity and function of soil bacterial communities in response to long-term intensive management in a subtropical bamboo forest[J].Geoderma,2019,354.
[33]	Li X J,Du H Q,Mao F J,et al.Assimilating spatiotemporal MODIS LAI data with a particle filter algorithm for improving carbon cycle simulations for bamboo forest ecosystemsyy[J].Science of Total Environment,2019,694.
[34]	Song X Z,Peng C H,Zhou G M,et al. Dynamic allocation and transfer of non-structural carbohydrates,a possible mechanism for the explosive growth of Moso bamboo (Phyllostachys heterocycla)[J]. Scientific Reports,2016,6.
[35]	Song Z L,Liu H Y,Stromberg C A E,et al. Phytolith carbon sequestration in global terrestrial biomes[J]. Science of the Total Environment,2017,603:502-509.
[36]	Zhang X D,Song Z L,McGrouther K,et al. The impact of different forest types on phytolith-occluded carbon accumulation in subtropical forest soils[J]. Journal of Soils and Sediments,2016,16(2):461-466.