次生落叶阔叶林降雨过程中的4种金属元素特征

doi:10.3969/j.issn.1000-2006.201801030

国家林草科技领军期刊
中国精品科技期刊
中国高校百佳科技期刊
江苏省新闻出版政府奖期刊奖
RCCSE林学权威期刊（A+）
CSCD核心期刊
Scopus数据库收录期刊
中文核心期刊
SCD核心期刊

作者加群：102861116

微信公众号：南京林业大学学报

高级检索

南京林业大学学报（自然科学版） ›› 2019, Vol. 62 ›› Issue (04): 178-184.doi: 10.3969/j.issn.1000-2006.201801030

次生落叶阔叶林降雨过程中的4种金属元素特征

张楠^1,2,范春楠¹,陈思羽³,郑金萍^1*,郭忠玲^1*

(1.北华大学林学院,吉林吉林 132013; 2.杭州富晟市政交通设计有限公司,浙江杭州 311400; 3.吉林省林业科学研究院,吉林长春 130033)

出版日期:2019-07-22 发布日期:2019-07-22
基金资助:
收稿日期:2018-01-17 修回日期:2019-04-15 基金项目:国家自然科学基金项目(31370622)。第一作者:张楠(1002100049@qq.com),ORCID(0000-0001-6875-6742)。*通信作者:郑金萍(zhengjinping80@126.com),副教授,负责指导论文写作与修改,ORCID(0000-0001-7738-2981); 郭忠玲(gzl65@163.com),教授,负责指导试验布置与设计,ORCID(0000-0002-2088-5745)。

Effects of precipitation characteristics on the distribution of four metal elements by rainfalls in a secondary deciduous broad-leaved forest

ZHANG Nan^1,2, FAN Chunnan¹, CHEN Siyu³, ZHENG Jinping^1*, GUO Zhongling^1*

(1.Forestry College, Beihua University, Jilin 132013, China; 2.Fucheng Municipal Traffic Design Co., Ltd., Hangzhou 311400, China; 3. Jilin Academy of Forestry Science, Changchun 130033, China)

Online:2019-07-22 Published:2019-07-22

摘要/Abstract

摘要： 【目的】通过长期野外定点、定位法,监测次生落叶阔叶林森林生态系统降雨再分配过程,检测其中金属元素Ca、K、Fe、Cu含量,探索降雨驱动下的森林养分循环特征,为提升森林经营管理水平提供参考。【方法】在研究地1 340 m²径流场内的35 m气象观测塔上,安装4台翻斗式自记雨量计(HOBO),对降雨情况自动连续监测,共获得次生落叶阔叶林生长季的24场大气降雨量和降雨历时数据; 在距研究地约500 m的楼顶上,设置6个标准雨量筒,用于采集大气降雨样品; 以梅花布点法在径流场内,设置了5个受雨器,收集穿透雨样品; 利用聚乙烯管制作茎流环环绕标准木,连接盛水器采集树干茎流水样; 在径流场梯形围堰的出水口蓄水池中,采集土壤表层地表径流水样。水样的采集量约250 mL,利用水质悬浮物重量法、水质pH玻璃电极法分别测定悬浮物(SS)含量和pH,利用电感耦合等离子发射光谱法(ICP-AES)测定水样中金属元素Ca、K、Fe、Cu含量。【结果】①大气降雨中输入4种金属元素的质量浓度以6月最高,9月最低,呈先增后降的变化趋势。Fe质量浓度月变化最大,Ca最小。②森林对降雨再分配后,经穿透雨后除Cu外各金属元素质量浓度均有增幅; 除Fe外各金属元素质量浓度均为6月最高; 各元素质量浓度的月变化以Fe为最大,Ca最小。③经树干茎流后,4种金属元素质量浓度均有所增加,且明显高于穿透雨,以K淋溶系数最大,Cu最小。但各金属元素质量浓度的月动态不一,总体表现为夏季偏高、秋季偏低的特征,以Cu的月波动最大,Ca的最小。④降雨过程中4种金属元素的质量浓度变化,主要与SS、降雨pH、降雨量、降雨类型、降雨历时、降雨强度等因素有关,大多表现为随降雨量、降雨强度和降雨历时增加而减少的趋势,其中Ca受降雨量的影响显著,K与降雨pH显著正相关,Cu与Fe主要源于降雨淋洗的悬浮物。不同降雨类型对Fe迁移影响不显著,小雨对Ca、K迁移影响显著,暴雨对Cu迁移影响显著。⑤大气降雨净输入量Ca、K、Fe均为正值,Cu为负值,净迁移量中4种金属元素均为负值。【结论】受降雨特征等因素影响,次生落叶阔叶林生态系统对Ca、K、Fe、Cu元素的淋溶与吸存能力表现出不同的迁移特征,明确在降雨驱动下该森林生态系统金属元素的动态过程,可为次生林养分循环、植物生长发育、生态水文调节及森林经营等领域提供重要依据。

Abstract: 【Objective】Investigate how different rainfall characteristics influence the redistribution of nutrient elements within a secondary deciduous broad-leaved forest ecosystem. The results will provide a theoretical basis for the improvement of forest management level. Precipitation samples were collected from long-term fixed-point sampling plots in the field, and the concentrations of elements Ca, K, Fe and Cu in the samples were determined. 【Method】 The study was conducted in a 1 340 m² field runoff study site with four dumping-type self-recording rain gauges(HOBO)installed on observation towers 35 m above the ground. The amount and duration of 24 separate rainfall episodes were automatically recorded during the growing season in the secondary deciduous broad-leaved forest. Six parallel standard rain gauges were set up on the roofs of buildings within 500 m from the study site to collect precipitation samples. Five rain absorbers were set up in the study site at spots with suitable canopy coverage and in a plum-blossom pattern to collect throughfall water. Stemflow was collected using polyethylene stemflow rings mounted on standard stems and connected to a water container. Surface runoff water samples were collected from a reservoir at the trapezoidal outlet of the study site. The water samples were around 250 mL. The suspended solids(SS)content and pH of each sample were determined using the water suspension weight method and a pH electrode, respectively, and the concentrations of Ca, K, Fe and Cu in the water sample were determined using inductively coupled plasma emission spectroscopy(ICP-AES). 【Result】 ① Outside the forest, the input of concentrations of the four metal elements in precipitations were the highest in June, and lowest in September. The concentrations of metal elements tended to increase initially and then decrease over each month. Monthly variation was largest for Fe and smallest for Ca. ② After the redistribution of precipitation in the forest, the concentrations of various metal elements in the throughfall changed. After leaching by throughfall, the concentration of each metal element increased, except for Cu. In addition to Fe, the concentrations of other metal elements in the throughfall were also the highest in June, while the monthly variation of Fe in the throughfall was also the largest, and the average concentration in June was higher than the annual average, and monthly changes of Ca were still minimal. ③ After leaching by stem flow, the concentrations of the metal elements increased, and were higher than those in the throughfall. During the precipitation distribution process, the leaching coefficient was the largest for K and smallest for Cu. However, the concentration of each metal element in the stemflow varied, and the overall trend was characterized as high in the summer and low in the autumn. The monthly changes of Cu concentration were the largest, and those of Ca were the smallest.

中图分类号:

S718.5

张楠,范春楠,陈思羽,等. 次生落叶阔叶林降雨过程中的4种金属元素特征[J]. 南京林业大学学报（自然科学版）, 2019, 62(04): 178-184.

ZHANG Nan, FAN Chunnan, CHEN Siyu, ZHENG Jinping, GUO Zhongling. Effects of precipitation characteristics on the distribution of four metal elements by rainfalls in a secondary deciduous broad-leaved forest[J].Journal of Nanjing Forestry University (Natural Science Edition), 2019, 62(04): 178-184.DOI: 10.3969/j.issn.1000-2006.201801030.

参考文献

[1] 李勇,葛晓敏,唐罗忠,等. 森林不同组分对降水的生态效应研究进展[J]. 世界林业研究,2015,28(2):19-24. DOI:10. 13348/j. cnki. sjlyyj. 2015. 02. 004. LI Y,GE X M,TANG L Z,et al. Ecological effects of different forest components on precipitation[J]. World Forestry Research,2015,28(2):19-24.
[2] 刘世海,余新晓,于志民. 密云水库集水区人工油松水源保护林降水化学性质研究[J]. 应用生态学报,2001,12(5):697-700. DOI:10. 13287/j.1001-9332.2001.0167. LIU S H,YU X X,YU Z M. Chemical property of precipitation in Pinus tabuleaeformis water resource protection forest in Miyun Reservoir watershed [J]. Chinese Journal of Applied Ecology,2001,12(5):697-700.
[3] ABOAL J R,JIMéNEZ M S,MORALES D,et al. Net below canopy fluxes in Canarian laurel forest canopies [J]. Journal of Hydrology,2002,264(1-4):201-212. DOI:10.1016/s0022-1694(02)00095-1.
[4] POLKOWSKAZ,ASTEL A,WALNA B,et al. Chemometric analysis of rainwater and throughfall at several sites in Poland [J]. Atmospheric Environment,2005,39(5):837-855. DOI:10.1016/j.atmosenv.2004.10.026.
[5] VAN DER HEIJDEN G,LEGOUT A,POLLIER B,et al. The dynamics of calcium and magnesium inputs by throughfall in a forest ecosystem on base poor soil are very slow and conservative:evidence from an isotopic tracing experiment(²⁶Mg and ⁴⁴Ca)[J]. Biogeochemistry,2014,118(1-3):413-442. DOI:10.1007/s10533-013-9941-2.
[6] 郑金萍,赵东宁,张宁,等.天然次生林群落不同树种树干茎流研究[J].北华大学学报(自然科学版),2013,14(1):77-81. DOI:10.11713/j.issn.1009-4822.2013.01.018. ZHENG J P,ZHAO D N,ZHANG N,et al. On stemflow for different tree species in natural secondary forest[J]. Journal of Beihua University(Natural Science),2013,14(1):77-81.
[7] 孙忠林,王传宽,王兴昌,等. 两种温带次生落叶阔叶林降雨再分配格局及其影响因子[J]. 生态学报,2014,34(14):3978-3986. DOI:10.5846/stxb201301240146. SUN Z L,WANG C K,WANG X C,et al. Rainfall redistribution patterns and their influencing factors of two temperate deciduous forests [J]. Acta Ecologica Sinica,2014,34(14):3978-3986.
[8] MAHAR A,WANG P,ALI A, et al. Challenges and opportunities in the phytoremediation of heavy metals contaminated soils: a review[J].Ecotoxicology and Environmental Safety,2016,(126):111-121. DOI:10.1016/j.ecoenv.2015.12.023.
[9] WINBOURNE J B, FENG A,REYNOLDS L,et al. Nitrogen cycling during secondary succession in Atlantic Forest of Bahia,Brazil[J]. Scientific Reports,2018,8(1):1377-1385. DOI:10.1038/s41598-018-19403-0.
[10] 赵瑛琳, 郭亚芬, 崔晓阳. 东北林区红松土壤及针叶中钙、镁、硫质量分数[J]. 东北林业大学学报,2015,43(4):57-61. DOI:10.13759/j.cnki.dlxb.2015.04.003. ZHAO Y L, GUO Y F,CUI X Y. The Pinus koraiensis soil in the forest region of northeast China and the contents of Ca,Mg and S in the Needle [J]. Journal of Northeast Forestry University,2015,43(4): 57-61.
[11] AMIN H,ARAINB A,ABBASI M S,et al. Potential for Phytoextraction of Cu by Sesamum indicum L. and Cyamopsis tetragonoloba L.:a green solution to decontaminate soil [J]. Earth Systems and Environment, 2018,2(1):133-143. DOI:10.1007s41748-018-0038-x.
[12] 周晓今,陈茹梅,范云六. 植物对铁元素吸收、运输和储存的分子机制[J]. 作物研究,2012,26(5):605-610. DOI:10.3969/j.issn.1001-5280.2012.05.55. ZHOU X J, CHEN R M, FAN Y L. Molecular mechanism of iron uptake,translocation and storage in plants [J]. Crop Research,2012,26(5):605-610.
[12] 卢晓强,杨万霞,丁访军,等.茂兰喀斯特地区森林降水分配的水化学特征[J]. 生态学杂志,2015,34(8):2115-2122. DOI:10.13292/j.1000-4890.2015.0172. LU X Q,YANG W X,DING F J,et al. Reallocation and chemical characteristics of precipitation in a Maolan Karst forest [J]. Chinese Journal of Ecology,2015,34(8):2115-2122.
[14] 高建平,赵迎春,李宗泽.电感耦合等离子体原子发射光谱(ICP-AES)法测定磷酸中的金属元素[J].中国无机分析化学,2019,9(01):64-66.DOI:10.3969/j.issn:2095-1035.2019.01.014. GAO J P,ZHAO Y C,LI Z Z.Determination of metal elements in phosphoric acid by ICP-AES[J].Chinese Journal of Inorganic Analytical Chemistry,2019,9(01):64-66.
[15] 田大伦,项文化,杨晚华. 第2代杉木幼林生态系统水化学特征[J]. 生态学报,2002,22(6):859-865. DOI:10.3321/j.issn:1000-0933.2002.06.010. TIAN D L,XIANG W H,YANG W H. Nutrient characteristics of hydrological process in young second-rotation Chinese fir plantations [J]. Acta Ecologica Sinica,2002,22(6):859-865.
[16] 巩合德,王开运,杨万勤. 川西亚高山3种森林群落穿透雨和茎流养分特征研究[J]. 林业科学,2005,41(5):14-20. DOI:10.3321/j.issn:1001-7488.2005.05.003. GONG H D, WANG K Y,YANG W Q. Nutrient characteristics of throughfall and stemflow in three forests at the subalpine of Western Sichuan [J]. Scientia Silvae Sinicae,2005,41(5):14-20.
[17] BARBIER S,BALANDIER P,GOSSELIN F. Influence of several tree traits on rainfall partitioning in temperate and boreal forests:a review[J].Annals of Forest Science,2009,66(6):602. DOI:10.1051/forest/2009041.
[18] 卢俊培,吴仲民. 尖峰岭热带林的植物化学特征[J].林业科学研究,1991,4(1):1-9. DOI: 10.13275/j.cnki.lykxyj.1991.01.001. LU J P,WU Z M. Phytochemical characteristics of tropical forest in Jianfengling [J]. Forest Research,1991,4(1):1-9.
[19] 陈美淇,张卓栋,王晓岚,等. 西南黄壤和西北黄土坡面侵蚀产沙规律比较研究[J]. 中国水土保持科学,2016,14(6):53-60. DOI:10.16843/j.sswc.2016.06.007. CHEN M Q,ZHANG Z D,WANG X L,et al. A comparison of slope erosion sediment yield characteristics of yellow soil in Southwest China and loess in Northwest China [J]. Science of Soil and Water Conservation,2016,14(6):53-60.
[20] 吴力立. 南京城市森林的降水特征[J]. 南京林业大学学报(自然科学版),2006,30(6):12-16. DOI:10.3969/j.issn.1000-2006.2006.06.003. WU L L. Rainfall characteristics in urban forest of Nanjing [J].Journal of Nanjing Forestry University(Natural Sciences Edition),2006,30(6):12-16.
[21] 李伟,张胜利,孟庆旭,等. 秦岭华山松林生态系统对大气降雨水化学特性的影响[J]. 西北林学院学报,2016,31(5):15-22. DOI:10.3969/j.issn.1001-7461.2016.05.03. LI W,ZHANG S L, MENG Q X,et al. Effects of Pinus armandii forest ecosytem on the chemical features of atmospheric rainfall water in Qinling Mounstains [J]. Journal of Northwest Forestry University,2016,31(5):15-22.
[22] 万睿,王鹏程,曾立雄,等. 三峡库区兰陵溪小流域森林降水化学循环特征[J]. 南京林业大学学报(自然科学版),2010,34(3):39-44. DOI:10.3969/j.issn.1000-2006.2010.03.009. WAN R,WANG P C,ZENG L X,et al. Chemical properties of the precipitation circulation in the forest of Lanlingxi small watershed in the Three Gorges Reservoir Area [J]. Journal of Nanjing Forestry University(Natural Sciences Edition),2010,34(3):39-44.
[23] 郭峰,周运超. 不同密度马尾松林针叶养分含量及其转移特征[J]. 南京林业大学学报(自然科学版),2010,34(4):93-96. DOI:10.3969/j.issn.1000-2006.2010.04.021. GUO F,ZHOU Y C. Foliar nutrient contents and translocation features in different density of Pinus massoniana plantations [J]. Journal of Nanjing Forestry University(Natural Sciences Edition),2010,34(4):93-96.
[24] 盛后财,蔡体久,琚存勇. 小兴安岭白桦林降水转化过程元素特征分析[J]. 北京林业大学学报,2015, 37(2):59-66. DOI:10.13332/j.cnki.jbfu.2015.02.009. SHENG H C,CAI T J,JU C Y. Element characteristics in the precipitation conversion process in Betula platyphlla forest of Xiaoxing’an Mountains,northeastern China [J]. Journal of Beijing Forestry University,2015,37(2):59-66.
[25] XIAO Y H,DAI L M,NIU D K,et al. Influence of canopy on precipitation and its nutrient elements in broad-leaved/Korean pine forest on the northern slope of Changbai Mountain[J]. Journal of Forestry Research,2002,13(3):201-204,251. DOI:10.1007/bf02871697.
[26] 刘阳,杨新兵,陈波,等. 冀北山地山杨桦木林生态系统水化学特征研究[J]. 生态环境学报,2011,20(11):1665-1669. DOI:10.16258/j.cnki.1674-5906.2011.11.003. LIU Y,YANG X B,CHEN B,et al. Study on precipitation hydro-chemical characteristic of mixed forest of poplar and birch of north mountain of Hebei Province [J]. Ecology and Environmental Sciences,2011,20(11):1665-1669.
[27] 刘世海,余新晓,于志民. 北京密云水库集水区板栗林水化学元素性质研究[J]. 北京林业大学学报,2001,23(2):12-15. DOI:10.13332/j.1000-1522.2001.02.004. LIU S H,YU X X,YU Z M. Properties of water chemical elements of Castanea mollissima forest in Miyun Reservoir watershed [J].Journal of Beijing Forestry University,2001,23(2):12-15.
[28] SILES P,VAAST P,DREYER E,et al. Rainfall partitioning into throughfall,stemflow and interception loss in a coffee(Coffea arabica L.)monoculture compared to an agroforestry system with Inga densiflora [J]. Journal of Hydrology,2010,395(1-2):39-48. DOI:10.1016/j.jhydrol.2010.10.005.

[1]	鲁旭东, 董禹然, 李垚, 毛岭峰. 中国亚热带杉木人工林不同林分发育阶段的群落构建机制[J]. 南京林业大学学报（自然科学版）, 2024, 48(1): 67-73.
[2]	邢冰冰, 李垚, 毛岭峰. 植物功能性状系统发育保守性的类群和地理分异研究——以中国被子植物最大株高为例[J]. 南京林业大学学报（自然科学版）, 2024, 48(1): 59-66.
[3]	萨如拉, 王子瑞, 滑永春, 呼日查, 刘磊, 高明龙, 于晓雨. 基于结构方程模型的大兴安岭北部天然林森林生态系统恢复能力评价研究[J]. 南京林业大学学报（自然科学版）, 2024, 48(1): 196-204.
[4]	路文燕, 董灵波, 田园, 汪莎杉, 曲宣怡, 魏巍, 刘兆刚. 基于树种组成的大兴安岭天然林主要树种树高-胸径曲线研究[J]. 南京林业大学学报（自然科学版）, 2023, 47(4): 157-165.
[5]	宋歌, 韩芳, 许景伟, 杨志军, 穆豪祥, 王志勇, 王哲. 基于LandUSEM模型的山东沿海防护林树种分布适宜性分析[J]. 南京林业大学学报（自然科学版）, 2023, 47(4): 42-50.
[6]	邹朋峻, 关庆伟, 袁在翔, 谷雨晴, 吴茜, 牛莹莹, 陈霞, 金雪梅. 紫金山南麓枫香种群结构与动态特征[J]. 南京林业大学学报（自然科学版）, 2023, 47(3): 157-163.
[7]	孙美佳, 周志勇, 王勇强, 沈颖, 夏威. 有机物添加对山西太岳山油松林土壤呼吸及碳组分的影响[J]. 南京林业大学学报（自然科学版）, 2023, 47(1): 67-75.
[8]	姚楠, 刘广全, 姚顺波, 贾磊, 林颖, 邓元杰, 侯孟阳. 基于坡度视角的黄土高原退耕还林(草)工程碳汇效应分析[J]. 南京林业大学学报（自然科学版）, 2023, 47(1): 180-188.
[9]	王麒淞, 国庆喜. 吉林东部天然次生林下光强衰减的空间分布特征[J]. 南京林业大学学报（自然科学版）, 2023, 47(1): 101-108.
[10]	邹晓明, 王国兵, 葛之葳, 谢友超, 阮宏华, 吴小巧, 杨艳. 林业碳汇提升的主要原理和途径[J]. 南京林业大学学报（自然科学版）, 2022, 46(6): 167-176.
[11]	徐晨, 阮宏华, 吴小巧, 谢友超, 杨艳. 干旱影响森林土壤有机碳周转及积累的研究进展[J]. 南京林业大学学报（自然科学版）, 2022, 46(6): 195-206.
[12]	张瑞婷, 杨金艳, 阮宏华. 树干液流对环境变化响应研究的整合分析[J]. 南京林业大学学报（自然科学版）, 2022, 46(5): 113-120.
[13]	李林珂, 王一诺, 薛潇, 张文, 吴焦焦, 高岚, 谭星, 荣星宇, 段儒蓉, 刘芸. 黄栌光合和呈色特性对重庆阴雨天气的响应[J]. 南京林业大学学报（自然科学版）, 2022, 46(5): 95-103.
[14]	夏捷, 陈胜, 吴一凡, 张玮, 谢锦忠. 种植竹荪后毛竹林土壤微生物生物量和微生物熵的动态变化[J]. 南京林业大学学报（自然科学版）, 2022, 46(4): 127-134.
[15]	郭弘婷, 纪小芳, 汪成, 邹汉鲁, 王丽艳, 姜姜. 我国人工林林下灌木层植物多样性空间变异及影响要素[J]. 南京林业大学学报（自然科学版）, 2022, 46(4): 144-152.

次生落叶阔叶林降雨过程中的4种金属元素特征

Effects of precipitation characteristics on the distribution of four metal elements by rainfalls in a secondary deciduous broad-leaved forest

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

作者

读者

审稿