The trend of land resources carrying capacity in Afghanistan from 1961 to 2019: Based on the dietary nutrient equivalent

doi:10.3969/j.issn.1004-9479.2024.02.20220315

Abstract

Abstract:

In order to protect region security around China and promote "the Belt and Road" initiative, it is of high importance to fully understand food security and land resources carrying capacity (LCC) in Afghanistan. From the perspective of dietary nutrition demand, we studied the LCC change in Afghanistan in recent 60 years, with our established evaluation models. We also discussed the optimization path in future, considering different production and consumption scenarios. We concluded that local land resources have been unable to meet the total demands for food in Afghanistan, due to larger population and higher dietary nutrition demands; thus, local land carrying pressure has changed from the basic balance stage (1961-1978) and the tightening stage (1979-1998) to the prominent stage of human land contradiction (1999-2019). Considering three dietary nutrient equivalents of calories, protein and fat, all their land carrying capacity is overloaded in Afghanistan, with the greatest pressure from fat demands. In order to meet local food consumption growth and land sustainable development, local authorities should implement the "drug to food" policy and also improve land productivity, while suitable food dietary is also important for health and land management. Besides, we also discussed main drivers on LCC in Afghanistan, which aim to further alleviate local food security and better human-land relationship.

Key words: land resources carrying capacity, Afghanistan, dietary nutrition, food security, scenario analysis

摘要：

为了我国周边安全和“一带一路”倡议的顺利推进，应充分认识阿富汗地区的粮食安全问题及土地承载力演变情况。本研究从膳食营养需求的角度出发，通过构建土地资源承载力评价模型，研究了近六十年来阿富汗地区土地资源承载力变化情况，并根据未来不同情景，探讨了阿富汗地区土地资源承载力的优化路径。结果表明：随着膳食营养需求和人口的增加，阿富汗地区土地资源已无法满足本国居民的消费需求，土地资源承载压力逐渐增加，已经由基本平衡阶段（1961—1978）和态势趋紧阶段（1979—1998），演变为人地矛盾突出阶段（1999—2019）。从三种膳食营养当量（热量、蛋白质和脂肪）来看，阿富汗地区土地资源均处于超载状态，其中基于脂肪需求的土地资源承载压力最大。为了满足当地食物消费需求增长和土地资源的可持续发展，阿富汗当局一方面应大力推行“毒改粮”政策并提高土地生产力，另一方面也应当积极引导合适健康饮食。此外，本文还探讨了影响阿富汗土地资源承载力的主要因素，以期为进一步缓解与改善阿富汗地区粮食安全问题及其人地关系提供参考。

关键词: 土地资源承载力, 阿富汗, 膳食营养, 粮食安全, 情景分析

Sihan ZHA, Weizhe MA, Sijia WANG, Dan ZHANG, Qiyuan HU, Xiang GAO, Fei LUN, Lu HE. The trend of land resources carrying capacity in Afghanistan from 1961 to 2019: Based on the dietary nutrient equivalent[J]. World Regional Studies, 2024, 33(2): 53-63.

查思含, 马玮哲, 王思嘉, 张丹, 胡起源, 高翔, 伦飞, 何露. 1961—2019年阿富汗土地资源承载力变化研究[J]. 世界地理研究, 2024, 33(2): 53-63.

Figures/Tables 6

References 44

1	赵蕾, 王国梁, 吴樱, 等. "一带一路"背景下中国在南亚的贸易格局分析. 世界地理研究, 2019, 28(5): 44-53.
	ZHAO L, WANG G, WU Y, et al. Analysis on trade pattern between China and South Asia under the background of the "Belt and Road" Initiative. World Regional Studies, 2019, 28(5): 44-53.
2	IVANOV V, BOZAKOVA N, BALIEVA G N. Wars as factors causing starvation and malnutrition. Journal of Hygienic Engineering and Design, 2020, 31: 139-144.
3	World Food Programme. Afghanistan emergency. (2022-05-01)[2022-04-12]. .
4	BELLINGER N, KATTELMAN K T. Domestic terrorism in the developing world: Role of food security. Journal of International Relations and Development, 2021, 24(2): 306-332.
5	STEVENS A J. How can we meet the health needs of child refugees, asylum seekers and undocumented migrants? Archives of Disease in Childhood, 2020, 105(2): 191-196.
6	杜哲元. "一带一路"建设与当代新疆地缘战略价值论析. 世界地理研究, 2017, 26(5): 32-43.
	DU Z. "The Belt and Road" and new geo-strategic value of Xinjiang. World Regional Studies, 2017, 26(5): 32-43.
7	董雅娜, 张建新. 从规范主义到务实主义:欧盟对阿富汗国家重建的援助及其挑战. 复旦国际关系评论, 2021, 28(1): 212-236.
	DONG Y, ZHANG J. From normativism to pragmatism: EU assistance to national reconstruction in Afghanistan and its challenges. Fudan International Studies Review, 2021, 28(1): 212-236.
8	陈秧分,王介勇,张凤荣, 等.全球化与粮食安全新格局.自然资源学报, 2021,36(6):1362-1380.
	CHEN Y, WANG J, ZHANG F, et al. New patterns of globalization and food security.Journal of Natural Resources, 2021,36(6):1362-1380.
9	封志明, 杨艳昭, 闫慧敏, 等. 百年来的资源环境承载力研究:从理论到实践. 资源科学, 2017, 39(3): 379-395.
	FENG Z, YANG Y, YAN H, et al. A review of resources and environment carrying capacity research since the 20^th century: From theory to practice. Resources Science, 2017, 39(3): 379-395.
10	陈念平. 土地资源承载力若干问题浅析. 自然资源学报, 1989, 4(4): 371-380.
	CHEN N. A preliminary analysis of the population supporting capacity of land resources. Journal of Natural Resources, 1989, 4(4): 371-380.
11	李娜. 土地资源承载力在规划环评中的应用研究. 环境科学与管理, 2012, 37(4): 176-179.
	LI N. Study on application of land resources carrying capacity in SEA. Environmental Science and Management, 2012, 37(4): 176-179.
12	何仁伟, 谢磊, 李立娜. 基于人粮关系的土地资源承载力分析:以丹江口库区河南辖区为例. 生态经济, 2020, 36(9): 142-150.
	HE R, XIE L, LI L. Analysis of land resource carrying capacity based on human-food relationship: Taking Danjiangkou Reservoir Area in Henan province as an example. Ecological Economy, 2020, 36(9): 142-150.
13	苏子龙, 袁国华, 周伟. 基于改进三维生态足迹模型的安徽省土地生态承载力评价. 水土保持研究, 2020, 27(3): 256-262.
	SU Z, YUAN G, ZHOU W. Evaluation of land carrying capacity in Anhui Province based on revised three-dimensional ecological footprint model. Research of Soil and Water Conservation, 2020, 27(3): 256-262.
14	鲁春阳, 文枫. 基于均方差法的郑州市土地综合承载力评价. 中国农业资源与区划, 2019, 40(11): 20-25.
	LU C, WEN F. Evaluation of comprehensive land carrying capacity of Zhengzhou City based on the method of mean squared variance. Chinese Journal of Agricultural Resources and Regional Planning, 2019, 40(11): 20-25.
15	HAN C, LU B, ZHENG J. Analysis and prediction of land resources' carrying capacity in 31 provinces of China from 2008 to 2016. Sustainability, 2021, 13(23):13383.
16	潘昱奇, 李满春, 姜朋辉, 等. 基于多源国土空间数据的资源环境综合承载力及人口承载力评价:以江苏省常州市为例. 水土保持通报, 2021, 41(4): 350-356.
	PAN Y, LI M, JIANG P, et al. Evaluation on comprehensive carrying capacity of resources and environment,and population carrying capacity based on multi-source land spatial data: Taking Changzhou City of Jiangsu Province as an example. Bulletin of Soil and Water Conservation, 2021, 41(4): 350-356.
17	SHI Y, SHI S, WANG H. Reconsideration of the methodology for estimation of land population carrying capacity in Shanghai metropolis. Science of the Total Environment, 2019, 652: 367-381.
18	朱红波, 吴熙, 袁愿. 基于土地自然与经济双重属性的西部地区人口承载力测算. 长江流域资源与环境, 2018, 27(12): 2684-2696.
	ZHU H, WU X, YUAN Y. The calculation of population carrying capacity based on land natural and economic dual attributes of western region in China. Resources and Environment in the Yangtze Basin, 2018, 27(12): 2684-2696.
19	许月卿. 基于生态足迹的北京市土地生态承载力评价. 资源科学, 2007, 29(5): 37-42.
	XU Y. Evaluation of ecological carrying capacity based on ecological footprint model in Beijing. Resources Science, 2007, 29(5): 37-42.
20	LIU Y, ZENG C, CUI H, et al. Sustainable land urbanization and ecological carrying capacity: A spatially explicit perspective. Sustainability, 2018, 10(9): 3070.
21	成升魁,李云云,刘晓洁,等.关于新时代我国粮食安全观的思考.自然资源学报,2018,33(6):911-926.
	CHENG S, LI Y, LIU X, et al. Thoughts on food security in China in the new period.Journal of Natural Resources,2018,33(6): 911-926.
22	封志明. 土地承载力研究的过去、现在与未来. 中国土地科学, 1994,8(3): 1-9.
	FENG Z. Research history, present situation and future prospects of land carrying capacity. China Land Science, 1994, 8(3):1-9.
23	PETERS C J, WILKINS J L, FICK G W. Testing a complete-diet model for estimating the land resource requirements of food consumption and agricultural carrying capacity: The New York State example. Renewable Agriculture and Food Systems, 2007, 22(2): 145-153.
24	郝庆, 封志明, 杨艳昭, 等. 西藏土地资源承载力的现实与未来——基于膳食营养当量分析. 自然资源学报, 2019, 34(5): 911-920.
	HAO Q, FENG Z, YANG Y, et al. Evaluation on land carrying capacity of Tibet based on dietary nutrients: Present and prospects. Journal of Natural Resources, 2019, 34(5): 911-920.
25	张超, 杨艳昭, 封志明, 等. 基于人粮关系的"一带一路"沿线国家土地资源承载力时空格局研究. 自然资源学报, 2022, 37(3): 616-626.
	ZHANG C, YANG Y, FENG Z, et al. Spatio-temporal patterns of the land carrying capacity in the Belt and Road region based on human-cereals relationship. Journal of Natural Resources, 2022, 37(3): 616-626.
26	POOLE N, AMIRI H, AMIRI S M, et al. Food production and consumption in Bamyan Province, Afghanistan: The challenges of sustainability and seasonality for dietary diversity. International Journal of Agricultural Sustainability, 2019, 17(6): 413-430.
27	SAMIM S A, HU Z, STEPIEN S, et al. Food insecurity and related factors among farming families in Takhar Region, Afghanistan. Sustainability, 2021, 13(18): 10211.
28	KAKAR K, XUAN T, HAQANI M, et al. Current situation and sustainable development of rice cultivation and production in Afghanistan. Agriculture, 2019, 9(3): 49.
29	TAVVA S, SINGH M, RIZVI J, et al. Potential for introducing improved production practices in food legumes with increased food security in Afghanistan. Scientia Agricola, 2019, 76(1): 41-46.
30	United Nations. UNdata. (2022-05-01)[2022-04-03]. .
31	WORLD BANK. World development indicators. (2022-05-01)[2021-07-30]. .
32	Food and Agriculture Organization of the United Nations. Global information and early warning systems. (2022-05-01)[2021-12-23]. .
33	United Nations Office on Drugs and Crime. Afghanistan opium survey 2019. (2022-05-01)[2021-08-19]. .
34	王玮, 闫慧敏, 杨艳昭, 等. 基于膳食营养需求的西藏县域土地资源承载力评价. 自然资源学报, 2019, 34(5): 921-933.
	WANG W, YAN H, YANG Y, et al. Evaluation of land resources carrying capacity of Tibetan counties based on dietary nutritional demand. Journal of Natural Resources, 2019, 34(5): 921-933.
35	丁耀纲. 基于膳食营养需求的赣州市土地资源承载力评价及预测. 价值工程, 2020, 39(6): 216-217.
	DING Y. Evaluation and forecast of land resource carrying capacity in Ganzhou city based on dietary nutrition demand. Value Engineering, 2020, 39(6): 216-217.
36	封志明, 杨艳昭, 张晶. 中国基于人粮关系的土地资源承载力研究:从分县到全国. 自然资源学报, 2008(5): 865-875.
	FENG Z, YANG Y, ZHANG J. The land carrying capacity of China based on man-grain relationship. Journal of Natural Resources, 2008, 23(5): 865-875.
37	娄伟. 情景分析方法研究. 未来与发展, 2012, 35(9): 17-26.
	LOU W. The Study on Scenario Analysis Method. Future and Development, 2012, 35(9): 17-26.
38	王隽雄. 基于人粮关系的陕西省土地资源承载力时空演变格局和未来情景分析. 西安: 陕西师范大学, 2020.
	WANG J. Analysis of the spatial and temporal evolution pattern and future scenarios of land resource carrying capacity in Shaanxi Province based on human-food relationship. Xian: Shaanxi Normal University, 2020.
39	HAACK B. Afghanistan irrigation system assessment using remote sensing. AIP Conference Proceedings, 1997, 387(1): 195-202.
40	WALTERS S A, GRONINGER J W. Water distribution systems and on-farm irrigation practices: Limitations and consequences for Afghanistan's agricultural productivity. Water International, 2014, 39(3): 348-359.
41	罗秀丽, 杨忍, 徐茜. 全球人口与粮食的空间错位演变及影响因素分析. 自然资源学报, 2021, 36(6): 1381-1397.
	LUO X, YANG R, XU Q. Spatial mismatch evolution of global population and food and its influencing factors. Journal of Natural Resources, 2021, 36(6): 1381-1397.
42	WANG B, HOF A R, MA C. Impacts of climate change on crop production, pests and pathogens of wheat and rice. Frontiers of Agricultural Science and Engineering, 2022, 9(1): 4-18.
43	ROUSTA I, OLAFSSON H, MONIRUZZAMAN M, et al. Impacts of drought on vegetation assessed by vegetation indices and meteorological factors in Afghanistan. Remote Sensing, 2020, 12(15): 2433.
44	郑亚楠, 张凤荣, 谢臻, 等. 中国粮食生产时空演变规律与耕地可持续利用研究. 世界地理研究, 2019, 28(6): 120-131.
	ZHENG Y, ZHANG F, XIE Z, et al. Research on the spatial-temporal evolution of grain production and sustainable use of cultivated land in China. World Regional Studies, 2019, 28(6): 120-131.

类型	级别	LCCI	意义
盈余	富富有余	LCCI ≤ 0.500	食物富裕充足，具有一定的发展空间
	富裕	0.500 <LCCI ≤0.750
	盈余	0.750 < LCCI ≤ 0.875
平衡	平衡有余	0.875 < LCCI ≤1.000	人口与食物关系基本平衡，但发展潜力有限
平衡	临界超载	1.000 < LCCI ≤ 1.125	人口与食物关系基本平衡，但发展潜力有限
超载	轻微超载	1.125 < LCCI ≤ 1.250	食物缺口较大，人口超载严重
	过载	1.250 < LCCI ≤ 1.500
	严重超载	LCCI > 1.500

类型	级别	LCCI	意义
盈余	富富有余	LCCI ≤ 0.500	食物富裕充足，具有一定的发展空间
	富裕	0.500 <LCCI ≤0.750
	盈余	0.750 < LCCI ≤ 0.875
平衡	平衡有余	0.875 < LCCI ≤1.000	人口与食物关系基本平衡，但发展潜力有限
平衡	临界超载	1.000 < LCCI ≤ 1.125	人口与食物关系基本平衡，但发展潜力有限
超载	轻微超载	1.125 < LCCI ≤ 1.250	食物缺口较大，人口超载严重
	过载	1.250 < LCCI ≤ 1.500
	严重超载	LCCI > 1.500

每1kg	热量/kcal	蛋白质/g	脂肪/g	每1kg	热量/kcal	蛋白质/g	脂肪/g
小麦及产物	3 440	112	29	鱼类	1 100	208	30
玉米及产物	3 440	99	34	植物油	9 000	0	1 000
稻米	3 500	66	3	水果	486	6	3
其他谷物	3 425	100	37	淀粉根类	870	14.5	2
蔬菜	280	13	2	豆类	3 313	234	30
牛肉	1 630	195	91	内脏	1 313	189	53
羊肉	2 343	178	181	动物脂肪	8 400	3	931
禽肉	1 170	206	38	木本坚果	6 123	185	531
猪肉	3 950	132	370	糖料作物	750	7.5	1
其他肉类	1 315	218	44	糖及甜味剂	3 620	0	0
蛋类	1 390	145	90	油料作物	5 740	201	462
奶类	645	34	37	大豆	4 240	329	199

每1kg	热量/kcal	蛋白质/g	脂肪/g	每1kg	热量/kcal	蛋白质/g	脂肪/g
小麦及产物	3 440	112	29	鱼类	1 100	208	30
玉米及产物	3 440	99	34	植物油	9 000	0	1 000
稻米	3 500	66	3	水果	486	6	3
其他谷物	3 425	100	37	淀粉根类	870	14.5	2
蔬菜	280	13	2	豆类	3 313	234	30
牛肉	1 630	195	91	内脏	1 313	189	53
羊肉	2 343	178	181	动物脂肪	8 400	3	931
禽肉	1 170	206	38	木本坚果	6 123	185	531
猪肉	3 950	132	370	糖料作物	750	7.5	1
其他肉类	1 315	218	44	糖及甜味剂	3 620	0	0
蛋类	1 390	145	90	油料作物	5 740	201	462
奶类	645	34	37	大豆	4 240	329	199

种类	情景
种类	本国	内陆发展中国家	南亚	世界平均	中国
热量/(kcal/人/天)	2 991.21	4 754.08	4 841.54	8 572.06	8 062.62
蛋白质/(g/人/天)	88.45	156.81	127.95	279.08	300.98
脂肪/(g/人/天)	60.20	112.10	130.19	304.76	249.47