广东省红树林土壤碳储量及固碳潜力研究

doi:10.13284/j.cnki.rddl.003606

Abstract

Abstract:

Mangroves occur in coastal intertidal zones and play an important role in terrestrial and marine carbon cycles. Accurate estimations of mangrove carbon stocks and sequestration potential can help quantify the contribution of mangroves to addressing climate change and achieving carbon neutrality goals. The carbon stocks and burial rates of different mangrove communities and regions in Guangdong Province were studied through literature collection and data integration. The soil carbon densities of the Rhizophora stylosa and Bruguiera gymnorhiza communities were 0.27 and 0.23 Gg C/hm², respectively, while the soil carbon density of the Kandelia obovata community was the lowest at only 0.13 Gg C/hm². The area of mangroves in Guangdong Province is 9,106.2 hm², the total carbon stock is 1,542.02 Gg C, and the soil carbon density is 0.23 Gg C/hm². The total carbon reserves of mangroves in thirteen regions are in the following order: Zhanjiang (894.5 Gg C) > Yangjiang (195.4 Gg C) > Jiangmen (97.7 Gg C) > Zhuhai (91.0 Gg C) > Maoming (59.6 Gg C) > Shantou (51.4 Gg C) > Zhongshan (49.2 Gg C) > Huizhou (36.1 Gg C) > Guangzhou (35.1 Gg C) > Shenzhen (18.3 Gg C) > Shanwei (10.8 Gg C) > Dongguan (2.83 Gg C) > Chaozhou (0.11 Gg C). Using the ²¹⁰Pb method, the sediment accretion rate was found to be 13.47 mm/a. Qi'ao Island had the highest sediment compaction rate of 31.5 mm/a, followed by Zhenhai Bay, with 16.5 mm/a, Shenzhen Futian, with 15.9 mm/a, and Leizhou Bay, with the lowest sediment compaction rate of 7.3 mm/a. The carbon sequestration capacity of Guangdong province is approximately 19.72 Gg C/a, with the Leizhou Peninsula having the highest (6.05 Gg C/a) and Futian, Shenzhen having the lowest (0.66 Gg C/a) capacities. The carbon storage of mangroves in Guangdong Province was 1,542.02 Gg C, which was higher than that in other regions. The carbon sequestration capacity of the mangroves was relatively strong. Therefore, the protection and restoration of local mangroves may substantially contribute to the mitigation of climate change while providing additional benefits. This assessment, on a provincial scale, provides insights into blue carbon sequestration capacity, thus contributing to the synchronous progression of blue carbon management.

Key words: mangrove, blue carbon, carbon density, carbon stock, Guangdong Province

CLC Number:

S718.5

Guoming Qin, Jingfan Zhang, Jinge Zhou, Zhe Lu, Faming Wang. Soil Carbon Stock and Potential Carbon Storage in the Mangrove Forests of Guangdong[J].Tropical Geography, 2023, 43(1): 23-30.

Figures/Tables 4

Table 1

Table 2

Table 3

Table 4

References 0

	Adame M F, Zakaria R M, Fry B, Chong V C and Lee S Y. 2018. Loss and Recovery of Carbon and Nitrogen after Mangrove Clearing. Ocean and Coastal Management, 161: 117-126.
	Agrawal A, Nepstad D and Chatre A. 2011. Reducing Emissions from Deforestation and Forest Degradation. Annual Review of Environment and Resources, 36: 373-396.
	Alongi D M. 2014. Carbon Cycling and Storage in Mangrove Forests. Annual Review of Marine Science, 6(1): 195-219.
	Chen B, Xiao X, Li X, Pan L, Doughty R, Ma J, Dong J, Qin Y, Zhao B, Wu Z, Sun R, Lan G, Xie G, Clinton N and Giri C. 2017. A Mangrove Forest Map of China in 2015: Analysis of Time Series Landsat 7/8 and Sentinel-1A Imagery in Google Earth Engine Cloud Computing Platform. ISPRS Journal of Photogrammetry and Remote Sensing, 131: 104-120.
	Chen L, Wang W, Zhang Y and Guang H. 2009. Recent Progresses in Mangrove Conservation, Restoration and Research in China. Journal of Plant Ecology, 2(2): 45-54.
	陈远生，甘先华，吴中亨，钟德群. 2001. 广东省沿海红树林现状和发展. 防护林科技，（1）：32-35.
	Chen Yuansheng, Gan Xianhua, Wu Zhongheng and Zhong Dequn. 2001. Current Situation and Development of Mangrove along the Coast of Guangdong Province. Shelterbelt Science and Technology, (1): 32-35.
	Duarte C M, Middelburg J J and Caraco N. 2005. Major Role of Marine Vegetation on the Oceanic Carbon Cycle. Biogeosciences, 2(1): 1-8.
	Feng J, Cui X, Zhou J, Wang L, Zhu X and Lin G. 2019. Effects of Exotic and Native Mangrove Forests Plantation on Soil Organic Carbon, Nitrogen, and Phosphorus Contents and Pools in Leizhou, China. Catena, 180: 1-7.
	Fu C, Li Y, Zeng L, Zhang H, Tu C, Zhou Q, XIong K, Wu J, Duarte C M, Christie P and Luo Y. 2020. Stocks and Losses of Soil Organic Carbon from Chinese Vegetated Coastal Habitats. Global Change Biology, 27(1): 202-214.
	傅海峰，陶伊佳，王文卿. 2014. 海平面上升对中国红树林影响的几个问题. 生态学杂志，33（10）：2842-2848.
	Fu Haifeng, Tao Yijia and Wang Wenqin. 2014. Some Issues about the Impacts of Sea Level Rise on Mangrove in China. Journal of Ecology, 33(10): 2842-2848.
	Gan H, Lin J, Liang K and Xia Z. 2013. Selected Trace Metals (As, Cd and Hg) Distribution and Contamination in the Coastal Wetland Sediment of the Northern Beibu Gulf, South China Sea. Marine Pollution Bulletin, 66(1/2): 252-258.
	Gao Y, Zhou J, Wang L, Guo J, Feng J, Wu H and Lin G. 2019. Distribution Patterns and Controlling Factors for the Soil Organic Carbon in Four Mangrove Forests of China. Global Ecology and Conservation, 17: e00575.
	高天伦，管伟，毛静，姜仲茂，廖宝文. 2017. 广东省雷州附城主要红树林群落碳储量及其影响因子. 生态环境学报，26（6）：985-990.
	Gao Tianlun, Guan Wei, Mao Jing, Jiang Zhongmao and Liao Baowen. 2017. Carbon Storage and Its Influencing Factors of Main Mangrove Communities in Fucheng, Leizhou, Guangdong Province. Journal of Ecological Environment, 26(6): 985-990.
	广东省统计局. 2020. 广东省第三次全国国土调查主要数据公报. 南方日报，2021-12-28（7）.
	Guangdong Provincial Bureau of Statistics. 2020 Guangdong Province Third National Land Survey Main Data Bulletin. Southern Daily News, 2021-12-28 (7).
	国家林业局. 2014. 第二次全国湿地资源调查结果. 国土绿化，（2）：6-7.
	National Forestry Administration. 2014. The Second National Wetland Resource Survey. Land Greening, (2): 6-7.
	He Z, Peng Y, Guan D, Hu Z, Chen Y and Lee S. 2018. Appearance Can be Deceptive: Shrubby Native Mangrove Species Contributes More to Soil Carbon Sequestration Than Fast-Growing Exotic Species. Plant and Soil, 432(1): 425-436.
	胡懿凯，徐耀文，薛春泉，罗勇，廖宝文，朱宁华. 2019a. 广东省无瓣海桑和林地土壤碳储量研究. 华南农业大学学报，40（6）：95-103.
	Hu Yikai, Xu Yaowen, Xue Chunquan, Luo Yong, Liao Baowen and Zhu Ninghua. 2019a. Studies on Carbon Storages of Sonneratia apetala Forest Vegetation and Soil in Guangdong Province. Journal of South China Agricultural University, 40(6): 95-103.
	胡懿凯，朱宁华，廖宝文，游奕来，唐虹. 2019b. 淇澳岛不同恢复类型红树林碳密度及固碳速率研究. 中南林业科技大学学报，39（12）：101-107.
	Hu Yikai, Zhu Ninghua, Liao Baowen, You Yilai and Tang Hong. 2019b. Carbon Density and Carbon Fixation Rate of Mangroves of Different Restoration Types in Qi'ao Island. Journal of Central South University of Forestry and Technology, 39(12): 101-107.
	华国栋，庄礼凤，李家祥，张雪娜，王丹枫，吴林芳. 2021. 广东台山镇海湾红树林国家湿地公园土壤有机碳含量及其影响因素分析. 林业与环境科学，37（6）：118-123.
	Hua Guodong, Zhuang Lifeng, Li Jiaxiang, Zhang Xuena, Wang Danfeng and Wu Linfang. 2021. Analysis of Soil Organic Carbon Content and Its Influencing Factors in the Bay Mangrove National Wetland Park of Taishan Town, Guangdong Province. Forestry and Environmental Science, 37(6): 118-123.
	Kristensen E, Bouillon S, Dittmar T and Marchand C. 2008. Organic Carbon Dynamics in Mangrove Ecosystems: A Review. Aquatic Botany, 89(2): 201-219.
	Li M S and Lee S Y. 1997. Mangroves of China: A Vrief Review. Forest Ecology and Management, 96(3): 241-259.
	Li R, Chai M, Guo M and Qiu G. 2016. Sediment Accumulation and Mercury (Hg) Flux in Avicennia marina forest of Deep Bay, China. Estuarine, Coastal and Shelf Science, 177(5): 41-46.
	廖宝文，张乔民. 2014. 中国红树林的分布、面积和树种组成. 湿地科学，12（4）：435-440.
	Liao Baowen and Zhang Qiaomin. 2014. Area, Distribution and Species Composition of Mangroves in China. Wetland Science, 12(4): 435-440.
	Lu W, Yang Y, Chen L, Wang W, Du X, Wang C, Ma Y, Lin G X and Lin G H. 2014. Changes in Carbon Pool and Sand Structure of a Native Subtropical Mangrove Forest after Inter-Planting with Exotic Species Sonneratia apetala. PLoS ONE, 9: e91240.
	Lunstrum A and Chen L. 2014. Soil Carbon Stocks and Accumulation in Young Mangrove Forests.Soil Biology and Biochemistry, 75: 223-233.
	毛子龙，赖梅东，赵振业，杨小毛. 2011. 薇甘菊入侵对深圳湾红树林生态系统碳储量的影响. 生态环境学报，20（12）：1813-1818.
	Mao Zilong, Lai Meidong, Zhao Zhenye and Yang Xiaomao. 2011. Effect of Invasion Plants (Mikania micrantha H.B.K.) on Carbon Stock of Mangrove Ecosystem in Shenzhen Bay. Ecology and Environment, 20(12): 1813-1818.
	Mcleod E, Chmura G L, Bouillon S, Salm R, Bjork M, Duarte C M, Lovelock C E, Schlesinger W and Silliman B R. 2011. A Blueprint for Blue Carbon: Toward an Improved Understanding of the Role of Vegetated Voastal Habitats in Sequestering CO₂. Frontiers in Ecology and the Environment, 9(10): 552-560.
	Ouyang X, Lee S Y and Connolly R M. 2017. Structural Equation Modelling Reveals Factors Regulating Surface Sediment Organic Carbon Content and CO₂ Efflux in a Subtropical Mangrove. Science of the Total Environment, 578: 513-522.
	Pan Y, Birdsey R A, Fang J, Houghton R, Kauppi P E, Kurz W A, Phillips O L, Shvidenko A, Lewis S L,Casnadell J G, Ciais P, Jackson R, Pacala S W, Mcguire A D, Piao S L, Rautiainen A R, Sitch S and Hayes D. 2011. A Large and Persistent Carbon Sink in the World's Forests. Science, 333(6045): 988-993.
	Pendleton L, Daniel D C, Murray B C, Crooks S, Jenkins W A, Sifleet S, Craft C, Fourqurean W F, Kauffman V, Marbà N, Megoniga W, Pidgeon E, Herr D, Gordon D and Valdera A. 2012. Estimating Global "Blue Carbon" Emissions from Conversion and Degradation of Vegetated Coastal Ecosystems. PLoS ONE, 7: e43542.
	乔永民，谭键滨，马舒欣，赵建刚，吴苑玲，杜欢. 2018. 深圳红树林湿地沉积物氮磷分布与来源分析. 环境科学与技术，41（2）：34-40.
	Qiao Yongmin, Tan Jianbin, Ma Shuxin, Zhao Jiangang, Wu Yuanling and Du Huan. 2018. The Distribution Pattern and Sources Analysis for Nitrogen and Phosphorus in Core Sediment of Shenzhen Mangrove Wetland. Environmental Science and Technology, 41(2): 34-40.
	Ren H, Lu H, Shen W, Huang C, Guo Q and Jian S. 2009. Sonneratia apetala Buch. Ham in the Mangrove Ecosystems of China: An Invasive Species or Restoration Species?. Ecological Engineering, 35(8): 1243-1248.
	Smith P, Martiono D, Cai Z, Gwary D, Janzen H, Kumar P, McCarl B, Ogle S, O'Mara F, Charles R, Scholes B, Sirotenko O, Howden M, McAllister T, Pan G, Romanekov V, Schneider U, Towprayoon S, Wattenbach M and Smith J. 2008. Greenhouse Gas Mitigation in Agriculture. Philosophical Transactions of the Royal Society B: Biological Sciences, 363(1492): 789-813.
	Tam N and Wong Y. 1998. Variations of Soil Nutrient and Organic Matter Content in a Subtropical Mangrove Ecosystem. Water, Air, and Soil Pollution, 103(1): 245-261.
	谈思泳，邱广龙，范航清，苏治南，韦梅球. 2017. 广西红树林群落表层沉积物有机碳的初步研究.绿色科技，（4）：4-8.
	Tan Siyong, Qiu Guanglong, Fan Hangqing, Su Zhinan and Wei Meiqiu. 2017. A Preliminary Study on Surface Sediment Organic Carbon of Mangrove Communities in Guangxi. Journal of Green Science and Technology, (4): 4-8.
	陶玉华，黄星，王薛平，钟秋平. 2020. 广西珍珠湾三种红树林林分土壤碳氮储量的研究.广西植物，40（3）：285-292.
	Tao Yuhua, Huang Xing, Wang Xueping and Zhong Qiuping. 2020. Soil Carbon and Nitrogen Storages in Three Mangrove Stands of Zhenzhu Gulf, Guangxi. Guihaia, 40(3): 285-292.
	Wang F, Sander C J, Santo I R, Tang J, Schuerch M, Kirwan M L, Kopp R E, Zhu K, Li X, Yuan J, Liu W and Li Z. 2021. Global Blue Carbon Accumulation in Tidal Wetlands Increases with Climate Change. National Science Review, 8(9): nwaa296.
	王法明，唐剑武，叶思源，刘纪化. 2021. 中国滨海湿地的蓝色碳汇功能及碳中和对策. 中国科学院院刊，36（3）：241-251.
	Wang Faming, Tang Jianwu, Ye Siyuan and Liu Jihua. 2021. Blue Carbon Sink Function of Chinese Coastal Wetlands and Carbon Neutrality Strategy. Bulletin of the Chinese Academy of Sciences, 36(3): 241-251.
	Wang G, Guan D, Peart M R, Chen Y and Peng Y. 2013. Ecosystem Carbon Stocks of Mangrove Forest in Yingluo Bay, Guangdong Province of South China. Forest Ecology and Management, 310: 539-550.
	Wang G, Guan D, Xiao L and Peart M R. 2019. Ecosystem Carbon Storage Affected by Intertidal Locations and Climatic Factors in Three Etuarine Mangrove Forests of South China. Regional Environmental Change, 19: 1701-1712.
	Wu Q, Leung J Y, Tam N F, Chen S, Mai B, Zhou X, Xia L and Geng X. 2014. Biological Risk and Pollution History of Polycyclic Aromatic Hydrocarbons (PAHs) in Nansha Mangrove, South China. Marine Pollution Bulletin, 85(1): 92-98.
	辛琨，颜葵，李真，胡杰龙，邱明红. 2014. 海南岛红树林湿地土壤有机碳分布规律及影响因素研究. 土壤学报，51（5）：1078-1086.
	Xin Kun, Yan Kui, Li Zhen, Hu Jielong and Qiu Minghong. 2014. Distribution of Soil Organic Carbon and Its Influencing Factors in Mangrove Wetland of Hainan Island. Acta Pedologica Sinica, 51(5): 1078-1086.
	徐耀文，姜仲茂，武锋，杨倩梨，廖宝文. 2020. 翠亨湿地无瓣海桑人工林土壤有机碳分布特征及与土壤理化指标相关性. 林业科学研究，33（1）：62-68.
	Xu Yaowen, Jiang Zhongmao, Wu Feng, Yang Qianli and Liao Baowen. 2020. Soil Organic Carbon Distribution and Its Correlation with Soil Physical and Chemical Indexes of Sonneratia apetala Plantation at Cuiheng Wetland. Forest Research, 33(1): 62-68.
	Yang J, Gao J, Liu B and Zhang W. 2014. Sediment Deposits and Organic Carbon Sequestration along Mangrove Coasts of the Leizhou Peninsula, Southern China. Estuarine, Coastal and Shelf Science, 136: 3-10.
	叶翔，李靖，王爱军. 2018. 珠江口淇澳岛滨海湿地沉积环境演化及其对人类活动的响应. 海洋学报，40（7）：79-89.
	Ye Xiang, Li Jing and Wang Aijun. 2018. Coastal Wetland Sedimentary Environment and its Response to Human Activities in Qiao Island, Pearl River Estuary. Journal of Oceanography, 40(7): 79-89.
	Yu C, Feng J, Liu K, Wang G, Zhu Y, Chen H and Guan D. 2020. Changes of Ecosystem Carbon Stock Following the Plantation of Exotic Mangrove Sonneratia apetala in Qi'ao Island, China. Science of the Total Environment, 717: 137142.
	朱耀军，赵峰，郭菊兰，武高洁，林广旋. 2016. 湛江高桥红树林湿地有机碳分布及埋藏特征. 生态学报，36（23）：7841-7849.
	Zhu Yaojun, Zhao Feng, Guo Julan, Wu Gaojie and Lin Guangxuan. 2016. Distribution and Burial Characteristics of Organic Carbon in Zhanjiang Gaoqiao Mangrove Wetland. Journal of Ecology, 36(23): 7841-7849.

群落	有机碳含量/%	容重/（g·cm^-3）	碳密度/（Gg C·hm^-2）	文献来源
平均	2.24±0.11	0.90±0.04	0.18±0.04	—
白骨壤 A. marina	1.59±0.42	1.04±0.05	0.17±0.02	华国栋等（2021）；朱耀军等（2016）；Fu等（2020）；Feng等（2019）；Wang等（2019）
红海榄 R. stylosa	4.22	0.81	0.28	Wang等（2013；2019）
木榄 B. gymnorhiza	2.90±0.10	0.91±0.06	0.24±0.02	胡懿凯等（2019a）；Wang等（2013；2019）
秋茄 K. candel	2.59±0.28	0.78±0.04	0.12±0.02	胡懿凯等（2019a）；华国栋等（2021）；高天伦等（2017）；He等（2018）；Lunstrum等（2014）；Wang 等（2019）；Gao等（2019）；Yu等（2010）
桐花 A. corniculatum	2.10±0.37	0.97±0.03	0.17±0.02	Lu等（2014）；Wang等（2019）；Gao等（2019）；胡懿凯等（2019a）；华国栋等（2021）；Fu等（2020）
无瓣海桑 S. apelata	1.60±0.12	0.82±0.02	0.16±0.02	Wang等（2013）；Lunstrum等（2014）；Wu等（2014）；高天伦等（2017）；He等（2018）；胡懿凯等（2019a，2019b）；Fu等（2020）；徐耀文等（2020）；Yu等（2020）；华国栋等（2021）
外来树种混交	1.26±0.1	0.99±0.03	0.18±0.03	Lu等（2014）；胡懿凯等（2019a）；Fu等（2020）
本地树种混交	1.65±0.81	0.92±0.03	0.15±0.04	Wang等（2013）；Lu等（2014）；朱耀军等（2016）；Feng等（2019）；Fu等（2020）；毛子龙等（2021）

地区	有机碳/%	容重/（g·cm^-3）	面积/hm²	碳密度/（Gg C·hm^-2）	碳储量/（Gg C）	文献来源
潮州	1.55	0.47	0.75	0.14	0.11	胡懿凯等（2019a）
广州	1.65	0.97	166.9	0.21	35.1	胡懿凯等（2019a）；Wu等（2014）
惠州	3.47	0.85	62.8	0.57	36.1	胡懿凯等（2019a）
江门	2.15±0.20	0.88±0.05	864.3	0.11±0.02	97.7	胡懿凯等（2019a）；华国栋等（2021）；Fu等（2020）
茂名	1.15	0.79	324.9	0.18	59.6	胡懿凯等（2019a）
汕头	2.04±0.56	0.74±0.12	219.4	0.23±0.05	51.4	He等（2018）；胡懿凯等（2019a）
深圳	1.4±0.06	0.89	137.3	0.13±0.08	18.3	毛子龙等（2011）；Lunstrum等（2014）；胡懿凯等（2019a）；Fu等（2020）
湛江	2.07±0.19	0.93±0.02	5 731.9	0.16±0.01	894.5	Wang等（2013）；Lu等（2014）；朱耀军等（2016）；高天伦等（2017）；胡懿凯等（2019a）；Gao等（2019）；Feng等（2019）；Wang等（2019）；Fu等（2020）
中山	2.08	0.66	185.7	0.26	49.2	胡懿凯等（2019a）
珠海	1.75±0.11	0.79±0.04	518.9	0.17±0.01	91.0	胡懿凯等（2019a，2019b）；Fu等（2020）；徐耀文等（2020）；Yu等（2020）
东莞	n.d.	n.d.	12.1	0.23^*	2.8	—
汕尾	n.d.	n.d.	46.2	0.23^*	10.8	—
阳江	n.d.	n.d.	834.9	0.23^*	195.4	—

采样点	优势种	取样深度 /cm	沉积速率 /（mm∙a^-1）	有机碳累积速率 /（g C∙m^-2∙a^-1）	沉积速率测定方法	文献来源
深圳福田	海榄雌 A. marina	87	15.9	482	²¹⁰Pb	Li等（2016）；乔永民等（2018）；Fu等（2020）；
淇澳岛	无瓣海桑 S. apetala	1 450	31.5	539.5	²¹⁰Pb	叶翔等（2018）
镇海湾	桐花 A. corniculatum	125	16.5	376	²¹⁰Pb	叶翔等（2018）
雷州半岛	海榄雌+白骨壤 A. marina+ R. stylosa	75	14.8	105.5	²¹⁰Pb	Yang等（2014）
雷州湾	无瓣海桑 S. apetala	98	7.3	73	²¹⁰Pb	Fu等（2020）
英罗港	桐花 A. corniculatum	73.3	7.2	73.6	²¹⁰Pb	朱耀军等（2016）
英罗港	海榄雌 A. marina	70	10.7	101.3	²¹⁰Pb	朱耀军等（2016）
英罗港	n.d.	112	12.9	115	²¹⁰Pb	Gan等（2013）

优势种	取样深度/cm	沉积速率/（mm∙a^-1）	有机碳累积速率/（g C∙m^-2∙a^-1）	文献来源
海榄雌 A. marina	82.2	13.9	211.7	Li等（2016）；朱耀军等（2016）；乔永民等（2018）；Fu等（2020）
海榄雌+白骨壤 A. marina+ R. stylosa	73.4	16.6	110.3	Yang等（2014）；朱耀军等（2016）
海榄雌+无瓣海桑 A. marina+ S. apetala	46	9.1	37	Yang等（2014）
无瓣海桑 S. apetala	774	19.4	306.5	叶翔等（2018）；Fu等（2020）
桐花 A. corniculatum	125	16.5	376	Fu等（2020）
桐花+秋茄 A. corniculatum + K. obovata	94	10.9	205	Yang等（2014）
桐花+木榄 A. corniculatum + B. gymnoihiza	70	6.5	93	朱耀军等（2016）
海榄雌+桐花 A. marina+ A. corniculatum	80	8.6	35	朱耀军等（2016）

[1]	Liujun Yang, Zhanqiang Zhu. Spatial Distribution Patterns and Influencing Factors of Rural Leisure Tourism Sites in Guangdong Province [J]. Tropical Geography, 2023, 43(2): 293-307.
[2]	Fan Mo, Yaofu Huang, Xinhui Wu, Jing Wang. County-Town-Village Spatial Pattern Under the Function Evolution of Township: A Case Study of Two Counties in Guangdong Province [J]. Tropical Geography, 2023, 43(2): 308-319.
[3]	Lixia Jin, Zhangrong Xiao, Yuming Xie, Junjie Zhang, Jie Guo, Zhimin Wen. Coordination Mechanism of Village-Level Industrial Park Transformation Based on the Perspective of Stakeholders: A Case Study of Heshan City, Guangdong Province [J]. Tropical Geography, 2023, 43(2): 213-225.
[4]	Xin Wen, Kai Liu, Jingjing Cao, Yuanhui Zhu, Ziyu Wang. Estimation of Mangrove Aboveground Biomass in China Using Forest Canopy Height through an Allometric Equation [J]. Tropical Geography, 2023, 43(1): 1-11.
[5]	Chuying Yu, Hui Gong, Jingjing Cao, Yanjun Liu, Kai Liu. Individual Tree Crown Delineation and Aboveground Biomass Estimation of Sonneratia apetala Based on Unmanned Aerial Vehicle Remote Sensing Images [J]. Tropical Geography, 2023, 43(1): 12-22.
[6]	Yunlei Chang, Jingjuan Liao, Li Zhang. Temporal and Spatial Variations of Mangroves and Their Driving Factors in Southeast Asia [J]. Tropical Geography, 2023, 43(1): 31-42.
[7]	Xiaohong Gu, Penghua Qiu, Wei Chen, Wenqian Zhou, Xiaojuan Chen, Shili Yang. Mangrove Forest Change in Haikou Dongzhaigang Nature Reserve and Its Association with Surrounding Communities [J]. Tropical Geography, 2023, 43(1): 43-58.
[8]	Yanan Cheng, Xin Huang, Zhiqiang Wu, Hao Liu, Hao Xu, Qiongyuan Su, Liang Zhu, Peng Xu, Liangliang Huang. Spatio-Temporal Niches of Main Fish Species in the Mangrove Creeks of the Nanliujiang River Estuary [J]. Tropical Geography, 2023, 43(1): 59-70.
[9]	Zhiwei Luo, Huiyan He, Min Wang. Digital Agricultural Space Construction and Practice in the Context of Rural Revitalization: A Case of the Tea Industry in Zijin County, Guangdong Province [J]. Tropical Geography, 2022, 42(8): 1324-1334.
[10]	Yuanjun Li, Qitao Wu, Changjian Wang, Kangmin Wu, Hong'ou Zhang, Shuangquan Jin. Estimation Model and Spatial Pattern of Highway Carbon Emissions in Guangdong Province [J]. Tropical Geography, 2022, 42(6): 952-964.
[11]	Zhengbo Wei, Yan Luo, Ruiqin Xiao, Ge He. Strategy and Control of Sea-Land Coordination Planning of Territorial Space: A Case Study of Guangdong Province [J]. Tropical Geography, 2022, 42(4): 544-553.
[12]	Kaihuai Liao, Shuhui Chen. Identification of Spatial Development Types of Inter-City Border Towns in Guangdong Province, China [J]. Tropical Geography, 2022, 42(3): 431-443.
[13]	Ting Liu, Weiping Hu. Spatial Pattern, Aging Suitability, and Equality of Medical and Residential Care Facilities in Guangdong Province: An Evaluation Based on Spatial Accessibility [J]. Tropical Geography, 2022, 42(12): 1993-2006.
[14]	Tao Xu, Ziyang Zhu, Huaxiang Ding, Jianneng Xiao, Yaolong Zhao. The Characteristics of Rural Homestead Housing in Guangdong Province Under the Background of Rural Revitalization [J]. Tropical Geography, 2022, 42(1): 148-159.
[15]	Xinghu Wei, Shujuan Liu, Xizhen Xu, Li Lei, Hongyan Zhou, Zhaoxiong Liang. Grading Standard for Determining Underground Soil Leakage in a Mountain with Karst Topography in the North of Guangdong Province [J]. Tropical Geography, 2021, 41(5): 1000-1008.

Soil Carbon Stock and Potential Carbon Storage in the Mangrove Forests of Guangdong

RichHTML

PDF (PC)

Like

Knowledge

Abstract

Cite this article

share this article

Figures/Tables 4

References 0

Related Articles 15

Metrics

Comments

Recommended 0