|
|
Distribution characteristics of root system and soil nutrients under Pinus sylvestris var. mongolica plantation in sandy soil |
KONG Tao1, WU Dan1, REN Xiyue2, WANG Dongli1, WANG Kai1 |
1. College of Environmental Science and Engineering, Liaoning Technical University, 123000, Fuxin, Liaoning China; 2. College of Resources and Environment, Jilin Agricultural University, 130118, Changchun, China |
|
|
Abstract [Background] Pinus sylvestris var. mongolica is the main tree species for the windbreak and sand fixation forests, soil and water conservation forests and farmland protection forests in arid and semi-arid sandy land of China. P. sylvestris var. mongolica has strong drought resistance and low nutrient demand. Its plantation has played a significant role in windbreak and sand fixation in China's sandy land. Mechanical interpenetration and root exudates of P. sylvestris var. mongolica root system affect the physical and chemical properties of soil. The growth and distribution of roots have important significance for the growth and development of P. sylvestris var. mongolica. [Methods]In order to explore the root distribution of P. sylvestris var. mongolica, root soil nutrient distribution and the relationship between them, root system and soil nutrients distribution of different soil layers(0-20 cm, > 20-40 cm, > 40-60 cm, > 60-80 cm and > 80-100 cm), different orientations(east, south, west and north) and horizontal distances(0,0.5,1.0,1.5 and 2.0 m) from the trunk of P. sylvestris var. mongolica of 60 years were studied. Root diameter and number of P. sylvestris var. mongolica, contents of soil water, organic matter, total nitrogen, available nitrogen, total phosphorus, available phosphorus, total potassium, and available potassium were determined. [Results] 1) The root number and diameter of P. sylvestris var. mongolica decreased with the increase of soil depth and horizontal distance. The roots showed a phenomenon of aggregation in the surface layer (0-40 cm), accounting for 74.63% of the root numbers in the range of 0-100 cm soil layer. Meanwhile, the roots were mainly distributed in the horizontal direction within the range of 0-0.5 m from the trunk, accounting for 44.78% of the root numbers in the horizontal range of 0-2.0 m. 2) The contents of organic matter, total nitrogen, available nitrogen, total phosphorus and available phosphorus increased with the increase of horizontal distance. The overall nutrients indexes were the highest in range of > 1.0-2.0 m. The contents of total potassium and available potassium in the roots soil of P. sylvestris var. mongolica decreased with the increase of the horizontal distance from the trunk. 3) With the increase of soil depth, the soil nutrients contents showed a decreasing trend. The variation law of nutrients in different orientations was not coincident, and the contents of available nutrients were the highest in the northern position. Correlation analysis showed that the root number and diameter of P. sylvestris var. mongolica were significantly positively correlated with soil total nitrogen content. [Conculsions] The roots and soil nutrient distribution of P. sylvestris var. mongolica tende to aggregate in the surface soil vertically and in the soil at the edge of the canopy horizontally, and soil available nutrients contents are the highest in the north orientation of the trunk.
|
Received: 12 July 2019
|
|
|
|
|
[1] |
王妍. 呼伦贝尔沙地天然樟子松林更新研究[D].北京:中国林业科学研究院,2009:108. WANG Yan. Regeneration of the natural Mongolian pine forest in Hulun Buir Sandland[D].Beijing:Chinese Academy of Forestry,2009:108.
|
[2] |
曾泽群,雷泽勇,魏晓婷. 基于水分变化的沙地樟子松人工林土壤分层特征[J].干旱区资源与环境,2017, 31(12):161. ZENG Zequn, LEI Zeyong, WEI Xiaoting. Soil layered characteristics of Pinus sylvestris var. mongolica plantations based on the change of soil moisture content[J].Journal of Arid Land Resources and Environment,2017, 31(12):161.
|
[3] |
张继义,赵哈林,崔建垣,等. 科尔沁沙地樟子松人工林土壤水分动态的研究[J].林业科学,2005, 41(3):1. ZHANG Jiyi, ZHAO Halin, CUI Jianyuan, et al. Community structure,soil water dynamics and community stabillity of Pinus sylvestris var.mongolica plantation in Horqin Sandy Land[J].Scientia Silave Sinicae,2005, 41(3):1.
|
[4] |
杨涛,徐慧,李慧,等. 樟子松人工林土壤养分、微生物及酶活性的研究[J].水土保持学报, 2005, 19(3):50. YANG Tao, XU Hui, LI Hui, et.al.Soil nutrient, microorganism and enzyme activity in Pinus sylvestris plantations[J].Journal of Soil and Water Conservation, 2005, 19(3):50.
|
[5] |
牛沙沙,周永斌,刘丽颖,等. 不同林龄樟子松人工林土壤理化性质[J].东北林业大学学报,2015, 43(2):47. NIU Shasha, ZHOU Yongbin, LIU Liying, et.al. Soil Properties in Pinus sylvestris var.mongolica plantation of different ages[J].Journal of Northeast Forestry University,2015, 43(2); 47.
|
[6] |
唐洁,汤玉喜,杨艳,等. 洞庭湖区杨树人工林不同龄林土壤养分特征研究[J].中国农学通报,2016,32(25):5. TANG Jie, TANG Yuxi, YANG Yan, et al. Soil nutrient characteristics of different age poplar artificial forests in Dongting Lake Area[J].Chinese Agricultural Science Bulletin,2016, 32(25):5.
|
[7] |
侯晓娟,李志,崔诚,等. 武功山芒根系垂直分布及其与土壤养分的关系[J].草业科学,2017, 34(12):2428. HOU Xiaojuan, LI Zhi, CUI Cheng, et al. Vertical distribution characteristics of Miscanthus sinensis roots and its relationship to soil nutrients in the Wugong Mountains[J]. Pratacultural Science,2017, 34(12):2428.
|
[8] |
HALES S.Vegetable staticks[J]. Oldbourne,1969, 8(9):1677.
|
[9] |
VOGT K A,MOORE E E, VOGT D J, et al. Conifer fine root and mycorrhizal root biomass within the forest floors of Douglas-fir stands of different ages and site productivities[J].Canadian Journal of Forest Research,1983,13(3):429.
|
[10] |
杨丽韫,李文华. 长白山不同生态系统地下部分生物量及地下C贮量的调查[J].自然资源学报,2003, 18(2):204. YANG Lizhen, LI Wenhua.The underground root biomass and C storage in different forest ecosystems of Changbai Mountains in China[J].Journal of Natural Resources,2003, 18(2):204.
|
[11] |
陈高安,潘存德,王世伟,等.间作条件下杏树吸收根空间分布特征[J].新疆农业科学,2011, 48(5):821. CHEN Gaoan, PAN Cunde, WANG Shiwei, et al. Spatial distribution characteristics of absorbing roots of apricot trees in the intercropping systems[J]. Xinjiang Agricultural Sciences,2011, 48(5):821.
|
[12] |
楚轶欧,郑毅,卢国理,等. 间作对水稻根系分布特征的影响[J].云南农业大学学报,2007, 22(6):887. CHU Yiou, ZHENG Yi, LU Guoli, et.al. Effects of rice cultivars intercropping on root distribution characters[J].Journal of Yunnan Agricultural University,2007, 22(6):887.
|
[13] |
方怡向,赵成义,串志强,等. 膜下滴灌条件下水分对棉花根系分布特征的影响[J].水土保持学报, 2007, 21(5):96. FANG Yixiang, ZHAO Cheng Yi CHUAN Zhiqiang et.al. Root distribution characteristics of cotton in different drip irrigation amounts irrigation under mulched[J].Journal of Soil and Water Conservation, 2007, 21(5):96.
|
[14] |
刘凤山,周智彬,陈秀龙,等. 应用根系生态位指数研究不同灌溉量棉花根系分布特征[J].棉花学报,2011, 23(1):39. LIU Fengshan, ZHOU Zhibin, CHEN Xiulong, et al. Using RENI to study the distribution characteristics of cotton roots in different amounts of drip irrigation under film[J].Cotton Science,2011, 23(1):39.
|
[15] |
张莉,吴斌,丁国栋,等. 毛乌素沙地沙柳与柠条根系分布特征对比[J].干旱区资源与环境,2010, 24(3):158. ZHANG Li, WU Bin, DING Guodong, et al. Root distribution characteristics of Salix psammophyla and Caragana korshinskii in Mu Us sandy land[J].Journal of Arid Land Resources and Environment,2010, 24(3):158.
|
[16] |
徐贵青,李彦. 共生条件下三种荒漠灌木的根系分布特征及其对降水的响应[J].生态学报,2009, 29(1):130. XU Guiqing, LI Yan.Roots distribution of three desert shrubs and their response to precipitation under co-occurring conditions[J].Acta Ecologica Sinica,2009, 29(1):130.
|
[17] |
赵岩,周文渊,孙保平,等. 毛乌素沙地三种荒漠灌木根系分布特征与土壤水分研究[J].水土保持研究,2010, 17(4):129. ZHAO Yan, ZHOU Wenyuan, SUN Baoping, et al. Root distribution of three desert shrubs and soil moisture in Mu Us Sand Land[J].Journal of Soil and Water Conservation,2010, 17(4):129.
|
[18] |
邱俊,谷加存,姜红英,等. 樟子松人工林细根寿命估计及影响因子研究[J].植物生态学报,2010,34(9):1066. QIU Jun, GU Jiacun, JIANG Hongying. et al. Factors influencing fine root longevity of plantation-grown Pinus sylvestris var.mongolica[J].Chinese Journal of Plant Ecology,2010, 34(9):1066.
|
[19] |
刁淑清,沈海龙,丛健. 樟子松林木养分元素含量与分布[J].东北林业大学学报,2016, 37(1):15. DIAO Shuqing, SHEN Hailong, CONG Jian.Content and distribution of nutrient elements in trees of Pinus sylvestris var. mongolica[J]. Journal of Northeast Forestry University,2016, 37(1):15.
|
[20] |
雷泽勇,韩艳刚,赵国军,等.辽宁章古台樟子松生长过程分析[J].浙江农林大学学报,2018,35(2):324. LEI Zeyong, HAN Yangang, ZHAO Guojun, et al.Growth of Mongolica pine in Zhanggutai of Liaoning province[J]. Journal of Zhejiang A&F University,2018,35(2):324.
|
[21] |
鲍士旦,土壤农化分析[M].第3版.北京:中国农业出版社,2005:50. BAO Shidan. Soil and agricultural chemistry analysis [M].Beijing: China Agricultural Press,2000:50.
|
[22] |
徐振邦,李昕,戴洪才,等.长白山阔叶红松林主要树种根系分布规律的研究[J].生态学杂志,1987(4):19. XU Zhenbang, LI Xin, DAI Hongcai, et al. Root distributions of dominant trees in broad-leaved Korean pine forest of Changbai Mountain [J].Chinese Journal of Ecology,1987(4):19.
|
[23] |
李继伟,左海涛,李青丰,等. 柳枝稷根系垂直分布及植株生长对土壤盐分类型的响应[J].草地学报,2011, 19(4):644. LI Jiwei, ZUO Haitao, LI Qingfeng, et.al. Response of root spatial pattern and growth characteristics of switchgrass to soil saline type[J].Acta Agrestia Sinica,2011, 19(4):644.
|
[24] |
王凯,宋立宁,吕林有,等. 不同林龄沙地樟子松人工林细根垂直分布特征[J].东北林业大学学报,2014, 42(3):1. WU Kai, SONG Lining, LÜ Linyou, et al. Fine root vertical distribution characters of different aged Pinus sylvestris var.mongolica plantations on sandy land[J]. Journal of Northeast Forestry University,2014, 42(3):1.
|
[25] |
苏芳莉,刘明国,郭成久,等. 沙地樟子松根系垂直分布特征及对土壤的影响[J].中国水土保持,2006(1):20. SU Fangli, LIU Mingguo, GUO Chengjiu, et al. Characteristics of vertical distribution of root system of Mongolian Scotch pine growing in sandy area and influence to the soil[J].Soil and Water Conservation in China,2006(1):20.
|
[26] |
CAVELIER J. Fine-root biomass and soil properties in a semideciduous and a lower montane rain forest in Panama[J].Plant and Soil,1992, 142(2):187.
|
[27] |
徐华山,赵同谦,贺玉晓,等. 滨河湿地不同植被对农业非点源氮污染的控制效果[J].生态学报,2010, 30(21):5759. XU Huashan, ZHAO Tongqian, HE Yuxiao, et al. Effect of different vegetation types on agricultural non-point nitrogen pollution in riparian wetlands[J].Acta Ecologica Sinica,2010, 30(21):5759.
|
[28] |
胡慧蓉,胡庭兴,谭九龙,等.华西雨屏区不同植被类型对土壤氮磷钾及有机碳含量的影响[J].土壤,2014,46(4):630. HU Huirong,HU Tingxing,TAN Jiulong, et al. Effects of different vegetation types on soil nitrogen, phosphorus, potassium and organic carbon in rainy area of west China[J]. Soils,2014,46(4):630.
|
[29] |
杨曾奖,曾杰,徐大平,等. 森林枯枝落叶分解及其影响因素[J].生态环境,2007, 16(2):649. YANG Zengjiang, ZENG Jie, XU Daping et al. The processes and dominant factors of forest litter decomposition: A review [J].Ecology and Environment,2007,16(2):649.
|
[30] |
韩凤朋,郑纪勇,张兴昌. 黄土退耕坡地植物根系分布特征及其对土壤养分的影响[J].农业工程学报,2009,25(2):50. HAN Fengpeng, ZHENG Jiyong, ZHANG Xingchang.Plant root system distribution and its effect on soil nutrient on slope land converted from farmland in the Loess Plateau[J].Transactions of the CSAE,2009,25(2):50.
|
[31] |
张锡洲,李廷轩,王永东. 植物生长环境与根系分泌物的关系[J].土壤通报,2007, 38(4):785. ZHANG Xizhou, LI Tingxuan, WANG Yongdong.Relationship between growth environment and root exudates of plants: A Review[J].Chinese Journal of Soil Science,2007, 38(4):785.
|
[32] |
王新星,赵国平,史社强,等. 陕西榆林樟子松细根分布特征[J].东北林业大学学报,2014, 42(10):16. WANG Xinxing, ZHAO Guoping, SHI Sheqiang, et al. Distribution characteristics of Pinus sylvestris var.mongolica fine roots in Yulin city, Shaanxi province[J].Journal of Northeast Forestry University,2014, 42(10):16.
|
|
|
|