阿克苏地区不同土地利用方式对土壤有机碳的影响

doi:10.6048/j.issn.1001-4330.2020.08.019

摘要/Abstract

摘要： 【目的】 研究新疆阿克苏地区农田或荒地改建为果园亦或果农间作后对土壤有机碳的影响。【方法】 在阿克苏地区采集单作小麦、枣麦间作、单作枣园、荒地单作枣园、撂荒地等5种典型土地利用方式的土壤,测定有机碳含量并估算其碳储量。【结果】 由农田更替为果园及果农间作后,提高了各层土壤有机碳含量,其中0~40 cm土层各层土壤有机碳均显著提高(P<0.05)。由荒地改建为果园后,0~10、10~20、20~30和60~80 cm土层土壤有机碳均有显著提高(P<0.05)。0~100 cm土层土壤有机碳储量范围2.21~14.31 t/hm²,垂直分布看,0~40 cm土层是有机碳储存的主要土层(份额比＞56.9%),随深度增加而减少。不同土地利用方式下各土层土壤有机碳含量及碳储量均表现为枣麦间作>单作枣园>单作小麦>荒地单作枣园>撂荒地。【结论】 阿克苏地区农田或荒地改建为果园或果农间后,均有利于土壤有机碳的提高。枣麦间作系统与其他土地利用方式相比具有较高的固碳潜力。

关键词: 土壤有机碳; 土地利用方式; 有机碳储量; 单作枣园; 枣麦间作

Abstract: 【Objective】 To reveal the effects of the conversion of farmland or wasteland to orchard or agroforestry on soil organic carbon in the Aksu region of Xinjiang.【Method】 In the Aksu area, the soils of five typical land use types such as sole wheat, jujube wheat intercropping, sole jujube, sole jujube in wasteland, and wasteland were collected to determine the soil organic carbon content and estimate its carbon storage.【Result】 The results showed that the conversion of farmland to orchard or agroforestry increased soil organic carbon concentrations and the organic carbon content in each layer of 0-40 cm soil layer increased significantly (P<0.05). After the transition from wasteland to orchard, the soil organic carbon in soil layers in 0-10, 10-20, 20-30 and 60-80 cm depths was all increased significantly (P<0.05). The soil organic carbon storage ranged from 2.21 to 14.31 t/hm² in the 0-100 cm soil layer. According to the vertical distribution, the 0-40 cm soil layer was the main soil layer for organic carbon storage (the percentage 56.9%), which decreased with the increase of soil depth. The soil organic carbon content and storage in different soil layers under different land use patterns were all shown as follows: Jujube wheat intercropping > Sole jujube > Sole wheat > Sole jujube in wasteland > Wasteland. 【Conclusion】 It was found that the conversion of farmland or wasteland to orchard or agroforestry increased soil organic carbon concentrations and storage. Compared with other land use patterns, the jujube wheat intercropping system had higher carbon sequestration potential.

Key words: land use pattern; soil organic carbon; organic carbon storage; sole jujube; jujube wheat intercropping

中图分类号:

S750
S158

杨光, 阿丽娅·阿力木, 王卫霞. 阿克苏地区不同土地利用方式对土壤有机碳的影响[J]. 新疆农业科学, 2020, 57(8): 1542-1550.

YANG Guang, Aliya Alimu, WANG Weixia. Effects of Different Land Use Patterns on Soil Organic Carbon in Aksu Area[J]. Xinjiang Agricultural Sciences, 2020, 57(8): 1542-1550.

参考文献

[1] Mosier A R. Soil processes and global change [J]. Biology & Fertility of Soils, 1998, 27(3):221-229.
[2] Andrews S S, Karlen D L, Mitchell P. A comparison of soil quality indexing methods for vegetable production systems in northern California [J]. Agriculture Ecosystems & Environment, 2002, 90(1):25-45.
[3] Zhang T, Li Y F, Chang S X, et al. Converting paddy fields to Lei bamboo (Phyllostachys praecox) stands affected soil nutrient concentrations, labile organic carbon pools, and organic carbon chemical compositions[J]. Plant and Soil, 2013, 367(1-2): 249-261.
[4] Wang X W, Li X Z, Hu Y M, et al. Effect of temperature and moisture on soil organic carbon mineralization of predominantly permafrost peatland in the Great Hing' an Mountains, northeastern China[J]. Journal of Environmental Sciences, 2010, 22(7): 1057-1066.
[5] Albaladejo J, Ortiz R, Garcia-Franco N, et al. Land use and climate change impacts on soil organic carbon stocks in semi-arid Spain [J]. Journal of Soils and Sediments, 2013, 13(2): 265-277.
[6] 潘根兴. 中国土壤有机碳库及其演变与应对气候变化[J]. 气候变化研究进展, 2008, (5):282-289.
PAN Genxing. Soil Organic Carbon Stock, Dynamics and Climate Change Mitigation of China [J]. Climate Change Research, 2008,(5):282-289.
[7] 吴建国,张小全,徐德应. 土地利用变化对土壤有机碳贮量的影响[J]. 应用生态学报,2004, 15 (4): 593-599.
WU Jianguo, ZHANG Xiaoquan, XU Deying. Impact of land-use change on soil carbon storage [J]. Chinese Journal of Applied Ecology,2004, 15 (4): 593-599.
[8] Binkley B D. Changes in Soil Carbon following Afforestation in Hawaii [J]. Ecology, 1998, 79(3):828-833.
[9] 杨玉盛, 谢锦升, 盛浩, 等. 中亚热带山区土地利用变化对土壤有机碳储量和质量的影响[J]. 地理学报, 2007, 62(11): 1123-1131.
YANG Yusheng, XIE Jinsheng, SHENG Hao, et al. The impact of land use/cover change on storage and quality of soil organic carbon in mid-subtropical mountainous area of southern China [J]. Journal of Geographical Sciences, 2007, 62(11): 1123-1131.
[10] Lal R. Soil carbon sequestration impacts on global climate change and food security [J]. Science, 2004, 304(5677): 1623-1627.
[11] Zhao X, Hu K, Li K, et al. Effect of optimal irrigation, different fertilization, and reduced tillage on soil organic carbon storage and crop yields in the North China Plain [J]. Journal of Plant Nutrition and Soil Science, 2013, 176(1): 89-98.
[12] Conant R T, Paustian K, Elliott E T. Grassland management and conversion to grassland: effects on soil carbon [J]. Ecology Applications, 2001, 11(2): 343-355.
[13] 张仕吉. 湘中丘陵区不同土地利用方式土壤养分及碳库特征研究[D] . 长沙: 中南林业科技大学, 2015.
ZHANG Shiji. Study on Soil Nutrients and Carbon Pool Characteristics of Different Land Use Patterns in Hilly Areas of Central Hunan Province [D] . Changsha: Central South University of Forestry and Technology, 2015.
[14] 王义祥. 不同经营措施下果园土壤有机碳库特性及固碳潜力研究[D] . 福州: 福建农林大学, 2011.
WANG Yixiang. Characteristics of Organic Carbon Stock and Carbon Fixation Capacity in Orchard Soils by Different Managing Measures [D] . Fuzhou: Fujian Agriculture and Forestry University, 2011.
[15] Shi Z, Li X, Zhang L, et al. Impacts of farmland conversion to apple (Malus domestica) orchard on soil organic carbon stocks and enzyme activities in a semiarid loess region [J]. Journal of Plant Nutrition and Soil Science, 2015, 178(3):440-451.
[16] 石宗琳.渭北地区农田植被更替及长期植果对土壤质量的影响[D] . 杨凌: 西北农林科技大学, 2016.
SHI Zonglin. Long-term impact of apple orchard converted from farmland on soil quality in the Weibei region, northwest China [D] . Yangling: Northwest A & F University, 2016.
[17] Janssens IA, Freibauer A, Ciais P, et al. Europe's terrestrial biosphere absorbs 7 to 12% of European anthropogenic CO2 emissions[J]. Science, 2003, 300(5625):1538 -1542.
[18] Wu T, Wang Y, Yu CJ, et al. Carbon sequestration by fruit trees-Chinese apple orchards as an example[J]. PLOS ONE, 2012, 7(6): 1-13.
[19] 刘海, 杜明. 阿克苏年鉴[J]. 乌鲁木齐: 新疆人民出版总社, 2017.
LIU Hai, DU Ming. Aksu Yearbook [J]. Urumqi: Xinjiang People's press, 2017.
[20] 李媛, 程积民, 魏琳, 等. 云雾山典型草原火烧不同恢复年限土壤化学性质变化[J]. 生态学报, 2013, 33(7): 2131-2138.
LI Yuan, CHEN Jimin, WEI Lin, et al. Changes of soil chemical properties after different burning years in typical steppe of Yunwun Mountains [J]. Acta Ecologica Sinica, 2013, 33(7): 2131-2138.
[21] 骆土寿,陈步峰,陈永富,等. 海南岛霸王岭热带山地雨林采伐经营初期土壤碳氮储量[J]. 林业科学研究, 2000, 13(2):123-128.
LUO Tushou, CHEN Bufeng, CHEN Yongfu, et al. Variation of the Soil Carbon and Nitrogen for Initial Stage after the Felling in Tropical Montane Rainforest of Bawangling, Hainan Island [J]. Forest Research, 2000, 13(2):123-128.
[22] 陈伏生, 曾德慧, 陈广生, 等. 开垦对草甸土有机碳的影响[J]. 土壤通报, 2004,(4):413-419.
CHEN Fusheng, ZENG Dehui, CHEN Guangsheng, et al. Effects of Reclamation on Soil Organic Carbon of some Meadow Soils[J]. Chinese Journal of Soil Science, 2004,(4):413-419.
[23] 杨丰, 唐文汉, 王建立, 等. 贵州喀斯特山区草地生态系统类型转变对土壤有机碳的影响[J]. 草地学报, 2015, 23(4):733-737.
YANG Feng, TANG Wenhan, WANG Jianli, et al. Influence of Grassland Ecosystems Shift on Soil Organic Carbon in the Karst Mountain Area of Guizhou Province [J]. Acta Agrestia Sinica, 2015, 23(4):733-737.
[24] Solomon D, Lehmann J, Kinyangi J, et al. Long-term impacts of anthropogenic perturbations on dynamics and speciation of organic carbon in tropical forest and subtropical grassland ecosystems[J]. Global Change Biology, 2010, 13(2): 511-530.
[25] Zhong L, Qi Guo Z. Organic carbon content and distribution in soils under different land uses in tropical and subtropical China [J]. Plant and Soil, 2001, 231(2): 175-185.
[26] Laganière J, Angers D A, Paré D. Carbon accumulation in agricultural soils after afforestation: a meta‐analysis [J]. Global Change Biology, 2010, 16(1): 439-453.
[27] Wu J G, Zhang X Q, Xu D Y. Impact of land-use change on soil carbon storage [J]. Chinese Journal of Applied Ecology, 2004, 15(4): 593-599.
[28] 张亮亮, 罗明, 韩剑, 等. 南疆枣树-棉花间作对土壤微生物区系及代谢熵的影响[J]. 棉花学报, 2016, 28(5):493-503.
ZHANG Liangliang, LUO Ming, HAN Jian, et al. Effects of a Jujube-Cotton Intercropping System on Soil Microflora and Metabolic Quotient in Southern Xinjiang [J]. Cotton Science, 2016, 28(5):493-503.
[29] Lützow M V, K gel-Knabner I, Ekschmitt K, et al. Stabilization of organic matter in temperate soils: mechanisms and their relevance under different soil conditions - a review. European Journal of Soil Science, 2006, 57(4): 426-445.
[30] 刘聪, 项文化, 田大伦, 等. 中亚热带森林植物多样性增加导致细根生物量“超产”[J]. 植物生态学报, 2011, 35(5):539-550.
LIU Cong, XIANG Wenhua, TIAN Dalun, et al. Overyielding of fine root biomass as increasing plant species richness in subtropical forests in central southern China[J]. Chinese Journal of Plant Ecology, 2011, 35(5):539-550.
[31] 王来, 高鹏翔, 仲崇高, 等. 核桃-小麦复合系统土壤碳密度动态特征[J]. 西北林学院学报, 2018, 33(4):58-63.
WANG Lai, GAO Pengxiang, ZHONG Chonggao, et al. Dynamic Characteristics of Soil Organic Carbon Density in Walnut-wheat Agroforestry System[J]. Journal of Northwest Forestry University, 2018, 33(4):58-63.
[32] 高凯, 张丽娟, 于永奇, 等. 沙地土壤pH值、养分含量对微地形变化的响应[J]. 水土保持通报, 2016, 36(1): 88-92.
GAO Kai, ZHANG Lijuan, YU Yongqi, et al. Effects of Micro-topography on Soil pH Value, Nutrient Content in Sandy Land [J]. Bulletin of Soil and Water Conservation, 2016, 36(1): 88-92.
[33] 祝滔. 缙云山不同土地利用方式对土壤碳氮组分的影响[D] . 重庆: 西南大学, 2013.
ZHU Tao. Effects of Different Land Uses on Soil Organic Carbon and Nitrogen Fractions in Jinyun Mountain [D] . Chongqing: Southwest University, 2013.
[34] Feller C, Beare M H. Physical control of soil organic matter dynamics in the tropics [J]. Geoderma, 1997, 79(1-4): 69-116.
[35] 房飞, 唐海萍, 李滨勇. 不同土地利用方式对土壤有机碳及其组分影响研究[J]. 生态环境学报, 2013, (11):1774-1779.
FANG Fei, TANG Haiping, LI Binyong. Effects of land use type on soil organic carbon and its fractions [J]. Ecology and Environment Sciences, 2013, (11):1774-1779.
[36] 李柳莹. 洛川苹果园土壤质量现状评价[D] . 杨凌: 西北农林科技大学, 2014.
LI Liuying. The Evaluation of Soil Fertility Quality in the Apple Orchard of Luochuan County [D] . Yangling: Northwest A & F University, 2014.
[37] 张雪, 韩士杰, 王树起, 等. 长白山白桦林不同演替阶段土壤有机碳组分的变化[J]. 生态学杂志, 2016, 35(2): 282-289.
ZHANG Xue, HAN Shijie, WANG Shuqi, et al. Change of soil organic carbon fractions at different successional stages of Betula platyphylla forest in Changbai Mountains [J]. Chinese Journal of Ecology, 2016, 35(2): 282-289.
[38] Jobbagy E G, Jackson R B. The Vertical Distribution of Soil Organic Carbon and Its Relation to Climate and Vegetation [J]. Ecological Applications, 2000, 10(2): 423-436.
[39] 王国强. 土地利用变化对土壤有机碳和土壤团聚体轻组碳的影响[D] . 福州: 福建农林大学, 2007.
WANG Guoqiang. The Effect of Land Use Change on the Soil Organic Carbon and the Soil Aggregate Light Fraction Carbon [D] . Fuzhou: Fujian Agriculture and Forestry University, 2007.
[40] Amundson R. Soil warming and organic carbon content [J]. Nature, 2000, 408(6814):789-790.
[41] Lal R. (2001). World cropland soils as a source or sink for atmospheric carbon [J]. Advances in Agronomy, 71:145-191.
[42] Lal R. (1998). Soil Processes and the Carbon Cycle of Chapter 9: Land use and soil management effects on soil organic matter dynamics on alfisols in Western Nigeria [M] .
[43] Eynard A, Shumacher T E, Lindstrom M J, et al. Aggregate sizes and stability in cultivated South Dakota prairie Ustolls and Usterts [J]. Soil Science Society of America Journal, 2004, 68(4):1360-1365.
[44] 葛玺祖, 岳西杰, 孙汉印, 等. 农田和果园土壤有机碳氧化稳定性和储量差异[J]. 土壤通报, 2012, 43(1):81-86.
GE Xizu, YUE Xijie, SUN Hanyin, et al. The Difference of the Storage and Oxidation Stability of Soil Organic Carbon in the Soil between Farmland and Orchards [J]. Chinese Journal of Soil Science, 2012, 43(1):81-86.
[45] Anderson-Teixeira K J, Masters M D, Black C K, et al. Altered Belowground Carbon Cycling Following Land-Use Change to Perennial Bioenergy Crops[J]. Ecosystems, 2013, 16(3):508-520.
[46] Don A, Schumacher J, Freibauer A. Impact of tropical land-use change on soil organic carbon stocks - a meta-analysis[J]. Global Change Biology, 2001, 17(4):1658-1670.
[47] 石宗琳, 王益权, 冉艳玲, 等. 渭北苹果园土壤有机碳库变异特征[J]. 土壤学报, 2013, 50(1):203-207.
SHI Zonglin, WANG Yiquan, RAN Yanling, et al. Variation of Soil Organic Carbon Pool in Apple Orchards in Weibei [J]. Acta Pedologica Sinica, 2013, 50(1):203-207.
[48] 陈朝, 吕昌河, 范兰, 等. 土地利用变化对土壤有机碳的影响研究进展[J]. 生态学报, 2011, 31(18):5358-5371.
CHEN Zhao, LÜ Changhe, FAN Lan, et al. Effects of land use change on soil organic carbon: a review [J]. Acta Ecologica Sinica, 2011, 31(18):5358-5371.