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Ecological stoichiometric characteristics of plantation soil in the Tibetan Plateau-Loess Plateau transition zone |
ZHANG Xue, WANG Dongmei, WEN Wenjie, LIU Ruosha, LI Ping, ZHANG Peng |
School of Soil and Water Conservation, Beijing Forestry University, 100083, Beijing, China |
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Abstract [Background] Due to the special geographical location, the ecological environment of Tibet Plateau-Loess Plateau transition zone is fragile and its soil fertility is quite poor. Plantation is the main measure of ecological restoration in this area. Studying the soil ecological stoichiometric characteristics of plantation is conducive to understanding the effect of vegetation improvement in this area and revealing the limiting elements of vegetation growth, providing theoretical basis and technical guidance for vegetation restoration and reconstruction. [Methods] The study selected 5 standard plots (20 m×20 m) for each plantation(Picaea crassifolia, Sabina przewalskii, Pinus tabuliformis Carr., Larix principis-rupperchii, Populus cathayana Rehd, and Betula platyphylla Suk) in this area, and selected 3 standard plots (20 m×20 m) of grassland as a control. We collected 0-60 cm soil samples to determine their C, N and P contents, using one way ANOVA and Pearson correlation analysis to explore the soil ecological stoichiometric characteristics of typical plantations and their influencing factors. [Results] 1) The soil C, N and P contents of 6 plots were 11.34-20.86, 1.16-1.74 and 0.51-0.72 g/kg. The soil nutrient contents of each plantation were higher than that of grassland, while the soil nutrient of broad-leaved forest was higher than that of coniferous forest. 2) The soil C/N, C/P and N/P of 6 plantations were 9.30-11.60, 16.56-41.98 and 1.71-3.64. The soil C/P and N/P were lower than the average level of soil in China. 3) Soil C, N and P decreased with the increase of soil depth, and there were significant differences between different soil layers (P<0.05). Soil C/N decreased with the deepening of the soil depth, and its coefficient of variation was small. Soil C/P and N/P of different plantations showed different trend of soil depth, while they had no significant difference between different soil layers. 4) The correlation analysis showed that there was a very significant positive correlation between soil C and N, indicating that the changes of their contents were consistent. C/P and N/P were more affected by P. Soil nutrients and their stoichiometric ratio were significantly correlated with soil saturated hydraulic conductivity and alkali-decomposed nitrogen (P<0.05). [Conclusions] This study indicates that plantation has a certain improvement effect on soil nutrients, while broad-leaved forests are better than coniferous forests. N is found to be the main restricted nutrient in this area. In the process of plantation management, attention should be paid to the supplement of N to promote the healthy development of plantation ecosystem.
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Received: 22 July 2020
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[1] |
ZENG D H, CHEN G S. Ecological stoichiometry:A science to explore the complexity of living systems[J]. Acta Phytoecologica Sinica, 2005, 29(6):1007.
|
[2] |
李佳佳,樊妙春,上官周平.黄土高原南北样带刺槐林土壤碳、氮、磷生态化学计量特征[J].生态学报,2019,39(21):7996. LI Jiajia, FAN Miaochun, SHANGGUAN Zhouping. Ecological stoichiometry characteristics of soil carbon, nitrogen, and phosphorus of the Robinia pseudoacacia forest on the north-south strip of the Loess Plateau[J]. Acta Ecologica Sinica, 2019,39(21):7996.
|
[3] |
刘愿,陈云明,梁思琦,等.陕北黄土丘陵区刺槐人工林土壤生态化学计量特征[J].水土保持研究,2019,26(4):43. LIU Yuan, CHEN Yunming, LIANG Siqi, et al. Soil ecological stoichiometry characteristics of Robinia pseudoacacia plantation in the loess hilly region of northern Shanxi province[J]. Research of Soil and Water Conservation, 2019,26(4):43.
|
[4] |
张芸,李惠通,张辉,等.不同林龄杉木人工林土壤C:N:P化学计量特征及其与土壤理化性质的关系[J].生态学报,2019,39(7):2520. ZHANG Yun, LI Huitong, ZHANG Hui, et al. Soil C:N:P stoichiometry and its relationship with the soil physicochemical properties of different aged Chinese fir (Cunninghamia lanceolata) plantations[J]. Acta Ecologica Sinica, 2019,39(7):2520.
|
[5] |
张萍,章广琦,赵一娉,等.黄土丘陵区不同森林类型叶片-凋落物-土壤生态化学计量特征[J].生态学报,2018,38(14):5087. ZHANG Ping, ZHANG Guangqi, ZHAO Yiping, et al. Ecological stoichiometry characteristics of leaf-litter-soil interactions in different forest types in theloess hilly-gully region of China[J]. Acta Ecologica Sinica, 2018,38(14):5087.
|
[6] |
陈印平,夏江宝,赵西梅,等.黄河三角洲典型人工林土壤碳氮磷化学计量特征[J].土壤通报,2017,48(2):392. CHEN Yinping, XIA Jiangbao, ZHAO Ximei, et al. Effect of different plantation types on soil ecological stoichiometry in Yellow River Delta[J]. Chinese Journal of Soil Science, 2017,48(2):392.
|
[7] |
张泰东,王传宽,张全智.帽儿山5种林型土壤碳氮磷化学计量关系的垂直变化[J].应用生态学报,2017,28(10):3135. ZHANG Taidong, WANG Chuankuan, ZHANG Quanzhi. Vertical variation in stoichiometric relationships of soil carbon, nitrogen and phosphorus in five forest types in the Mao'ershan region, Northeast China[J]. Chinese Journal of Applied Ecology, 2017,28(10):3135.
|
[8] |
LUCAS-BORJA M E, HEDO J, CERDA A, et al. Unravelling the importance of forest age stand and forest structure driving microbiological soil properties, enzymatic activities and soil nutrients content in Mediterranean Spanish black pine (Pinus nigra Ar. ssp. salzmannii) forest[J]. Science of the Total Environment, 2016(562):145.
|
[9] |
左巍,贺康宁,田赟,等.青海高寒区不同林分类型凋落物养分状况及化学计量特征[J].生态学杂志,2016,35(9):2271. ZUO Wei, HE Kangning, TIAN Yun, et al. Surface litter stoichiometry for five forest types in alpine region, Qinghai, China[J]. Chinese Journal of Ecology, 2016,35(9):2271.
|
[10] |
刘凯,贺康宁,王先棒.青海高寒区不同密度白桦林枯落物水文效应[J].北京林业大学学报,2018,40(1):89. LIU Kai, HE Kangning, WANG Xianbang. Hydrological effects of litter of Betula platyphylla forest with different densities in alpine region, Qinghai of northwestern China[J]. Journal of Beijing Forestry University, 2018,40(1):89.
|
[11] |
邹扬,贺康宁,赵畅,等.高寒区青海云杉人工林密度与林下植物多样性的关系[J].西北植物学报,2013,33(12):2543. ZOU Yang, HE Kangning, ZHAO Chang, et al. Relationship between plantation density and the plants diversity under forest of Picea crassifoliain Alpine region[J]. Acta Botanica Boreali-Occidentalia Sinica, 2013,33(12):2543.
|
[12] |
李平,王冬梅,丁聪,等.黄土高寒区小流域土壤饱和导水率和土壤密度的分布特征[J].中国水土保持科学,2019,17(4):9. LI Ping, WANG Dongmei, DING Cong, et al. Distribution characteristics of soil saturated hydraulic conductivity and soil bulk density in a small watershed in the alpine zone of the Loess Plateau[J]. Science of Soil and Water Conservation, 2019,17(4):9.
|
[13] |
鲍士旦. 土壤农化分析[M]. 北京:中国农业出版社, 2000:33. BAO Shidan. Soil agro-chemistry analysis[M]. Beijing:China Agriculture Press Co., Ltd.,2000:33.
|
[14] |
曾全超,李鑫,董扬红,等.黄土高原延河流域不同植被类型下土壤生态化学计量学特征[J].自然资源学报,2016,31(11):1881. ZENG Quanchao, LI Xin, DONG Yyanghong, et al. Ecological stoichiometry of soils in the Yanhe watershed in the Loess Plateau:The influence of different vegetation zones[J]. Journal of Natural Resources, 2016,31(11):1881.
|
[15] |
欧延升,汪霞,李佳,等.不同恢复年限人工草地土壤碳氮磷含量及其生态化学计量特征[J].应用与环境生物学报,2019,25(1):38. OU Yansheng, WANG Xia, LI Jia, et al. Content and ecological stoichiometry characteristics of soil carbon, nitrogen, and phosphorus in artificial grassland under different restoration years[J]. Chinese Journal of Applied and Environmental Biology, 2019,25(1):38.
|
[16] |
赵华晨,高菲,李斯雯,等.长白山阔叶红松林和杨桦次生林土壤有机碳氮的协同积累特征[J].应用生态学报,2019,30(5):1615. ZHAO Huachen, GAO Fei, LI Siwen, et al. Co-accumulation characters of soil organic carbon and nitrogen under broadleaved Korean pine and Betula platyphylla secondary forests in Changbai Mountain, China[J]. Chinese Journal of Applied Ecology, 2019,30(5):1615.
|
[17] |
TIAN H Q, CHEN G S, ZHANG C, et al. Pattern and variation of C:N:P ratios in China's soils:A synthesis of observational data[J]. Biogeochemistry,2010, 98(S1/3):139.
|
[18] |
杨文高,字洪标,陈科宇,等.青海森林生态系统中灌木层和土壤生态化学计量特征[J].植物生态学报,2019,43(4):352. YANG Wengao, ZI Hongbiao, CHEN Keyu, et al. Ecological stoichiometric characteristics of shrubs and soils on different forest types in Qinghai, China[J]. Chinese Journal of Plant Ecology, 2019,43(4):352.
|
[19] |
孟庆权,葛露露,林宇,等.滨海沙地不同林分类型土壤养分含量及其化学计量特征[J]. 亚热带农业研究, 2018,14(4):217. MENG Qingquan, GE Lulu, LIN Yu, et al. Soil nutrient content and stoichiometric characteristics of different forest types in coastal sandy lands[J]. Subtropical Agriculture Research, 2018,14(4):217.
|
[20] |
VITOUSEK P M, FARRINGTON H. Nutrient limitation and soil development:Experimental test of a biogeochemical theory[J]. Biogeochemistry, 1997, 37(1):63.
|
[21] |
张一璇,史常青,杨浩,等.永定河流域官厅水库南岸典型林分土壤饱和导水率研究[J].生态学报,2019,39(18):6681. ZHANG Yixuan, SHI Changqing, YANG Hao, et al. Saturated hydraulic conductivity of soils of typical forests of the south coast of Guanting Reservoir in Yongding River Watershed[J]. Acta Ecologica Sinica, 2019,39(18):6681.
|
[22] |
王子龙,赵勇钢,赵世伟,等.退耕典型草地土壤饱和导水率及其影响因素研究[J].草地学报,2016,24(6):1254. WANG Zilong, ZHAO Yonggang, ZHAO Shiwei, et al. Study on soil saturated hydraulic conductivity and its influencing factors in typical grassland of farmland conversion[J]. Acta Agrestia Sinica, 2016,24(6):1254.
|
[23] |
魏江生,周梅,赵鹏武,等.兴安落叶松林型对土壤氮素含量的影响[J].干旱区资源与环境,2014,28(7):127. WEI Jiangsheng, ZHOU Mei, ZHAO Pengwu, et al. Nitrogen distribution in soils of different Larix gmelinii forest types[J]. Journal of Arid Land Resources and Environment, 2014,28(7):127.
|
[24] |
王玉婷,查轩,陈世发,等.红壤侵蚀退化马尾松林下不同治理模式土壤化学计量特征[J].应用生态学报,2020,31(1):17. WANG Yuting, ZHA Xuan, CHEN Shifa, et al. Soil stoichiometry of Pinus massoniana forest in red soil erosion area under different management patterns[J]. Chinese Journal of Applied Ecology, 2020,31(1):17.
|
[25] |
贾培龙,安韶山,李程程,等.黄土高原森林带土壤养分和微生物量及其生态化学计量变化特征[J].水土保持学报,2020,34(1):315. JIA Peilong, AN Shaoshan, LI Chengcheng, et al. Dynamics of soil nutrients and their ecological stoichiometry characteristics under different longitudes in the east-west forest belt of the Loess Plateau[J]. Journal of Soil and Water Conservation, 2020,34(1):315.
|
|
|
|