|
|
Water-holding characteristics and accumulation of litter in different man-made forests in the suburb of Nanjing |
JIN Yaqin1, LI Donglin2, SUN Lijuan1, ZHANG Wenbao3, YE Ziqing3 |
1. Department of Horticulture in Jinling Institute of Technology, 210038, Nanjing, China;
2. Forestry Academy of Jiangsu, 211153, Nanjing, China;
3. Nanjing Binjiang Park Management Limited Company, 210019, Nanjing, China |
|
|
Abstract [Background] Many researchers have studied natural forest litter and obtained a lot of achievements. The litter plays a major role in forest soil and water conservation, this is beyond doubt. However, it is lack of study on the litter characteristics of man-made forests, especially in the suburbs of cities.[Methods] Water-holding characteristics and accumulated amount of litter in 8 species city man-made forests was studied in the suburb of Nanjing. Litter thickness (d) and accumulation (M) of litter were measured by sampling, natural water content (R0),water holding rate (Rt), maximum water holding rate (Rmax) and water absorption rate(V) were analyzed in laboratory, maximum retain rate(R拦), maximum retain capacity (W拦) were calculated and effective retain deepness was calculated.[Results] 1) The effect of forest composition on litter characteristics was significant, litter thickness and accumulated amount showed significant difference in different communities (P<0.05). 2) The change of litter thickness ranged from 2.10 to 5.24 cm, the descending order of litter thickness was as Cinnamomum camphora forest(Ⅰ), Michelia chapensis forest(Ⅱ), Ligustrum lucidum forest(Ⅲ), Liriodendron chinense forest(Ⅳ), Phyllostachys glauca forest(Ⅷ), Celtis sinensis forest(Ⅴ), Zelkova serrata forest(Ⅶ), Acer palmatum forest(Ⅵ), and the change of accumulated amount was the similar. The correlation analysis showed it was positive between litter accumulation (M) and its thickness (N), the linear equation was M=1.405 4d+0.665 4 (R2=0.823 4,P<0.05). The change of water-holding capacity of litter in different forests was consistent, i.e., the water-holding capacity(W) increased sequentially with the increase of immersion time (t), and showing as an inverted "J" curve with the equation W=alnt+b. The water absorption rate of all litter showed another change, that was, the water absorption rate decreased successively with the increase of immersion time, showing as a "L" curve and the equation was fitted as v=atb. 3) The Rmax of the 8 plantations were 667.56%(Ⅶ), 462.90%(Ⅵ), 341.18%(Ⅴ), 292.19%(Ⅱ), 298.01%(Ⅲ), 290.76%(Ⅷ), 191.38%(Ⅳ), and 271.99%(Ⅰ). 4) The water-holding capacity of litter varied among different forests types, Z. serrata forest(Ⅶ) was the strongest by by comparing the Wsv, which was 26.32 t/hm2, A. palmatum forest(Ⅵ), and L. lucidum forest(Ⅲ)were more strong, that of which were 16.64 t/hm2,16.44 t/hm2. The Wsv of the L. chinense forest(Ⅳ) was only 9.55 t/hm2, which was the weakest on the effective retain deepness.[Conclusions] The water-holding capacity of different plantation communities was significantly different, and the selection of tree species and community types in urban plantation construction had an important effect on the water-holding capacity and water conservation ability of forest land. Cultivating Z. elkova forest is more reasonable development direction of urban forest construction in Nanjing at present because of its strong ability of the effective retain deepness to water and soil.
|
Received: 04 January 2018
|
|
|
|
|
[1] |
林波,刘庆,吴彦,等.森林凋落物研究进展[J].生态学杂志,2004,23(1):60. LIN Bo, LIU Qing,WU Yan, et al. Advances in the studies of forest litter[J].Chinese Journal of Ecology,2004,23(1):60.
|
[2] |
胡楠,李雄,戈晓宇. 因水而变:从城市绿地系统视角谈对海绵城市体系的理性认知[J].中国园林,2015(6):20. HU Nan, LI Xiong, GE Xiaoyu. Change with water:The rational cognition of sponge city system from the perspective of urban green space system[J].Chinese Landscape Architecture, 2015(6):20.
|
[3] |
王晓磊,王成. 城市森林调控空气颗粒物功能研究进展[J].生态学报,2014,34(8):1910. WANG Xiaolei, WANG Cheng. Research status and prospects on functions of urban forests in regulating the air particulate matter[J].Acta Ecologica Sinica,2014,34(8):1910.
|
[4] |
陈玮,何兴元,张粤,等.东北地区城市针叶树冬季滞尘效应研究[J].应用生态学报,2003,14(12):2113. CHEN Wei, HE Xingyuan, ZHANG Yue, et al. Dust absorption effect of urban conifers in Northeast China[J].Chinese Journal of Applied Ecology,2003,14(12):2113.
|
[5] |
朱耀军,王成,贾宝全,等.广州市主城区树冠覆盖景观格局梯度[J].生态学报,2011,31(20):5910. ZHU Yaojun, WANG Cheng, JIA Baoquan, et al. Landscape pattern gradient on tree canopy in the central city of Guangzhou, China[J].Acta Ecologica Sinica,2011,31(20):5910.
|
[6] |
陈勇,孙冰,廖绍波,等.深圳市城市森林林内景观的美景度评价[J].林业科学,2014,50(8):39. CHEN Yong, SUN Bing, LIAO Shaobo, et al. Scenic beauty estimation of in-forest landscapes in Shenzhen urban forests[J].Scientia Silvae Sinicae,2014,50(8):39.
|
[7] |
翟石磊,陈步峰,林娜.广州市典型森林植被的结构及多样性研究[J].生态环境学报,2015,24(10):1625. ZHAI Shilei, CHEN Bufeng, LIN Na. Structure and species diversity of typical forests in Guangzhou city[J].Ecology and Environmental Sciences,2015,24(10):1625.
|
[8] |
陈雷,孙冰,谭广文,等.广州公园植物群落物种组成及多样性研究[J].生态科学,2015,34(5):38. CHEN Lei, SUN Bing, TAN Guangwen, et al. Plant species structure and diversity of plant communities in Guangzhou parks[J].Ecological Science, 2015, 34(5):38.
|
[9] |
常雅军,曹靖,马建伟,等.秦岭西部山地针叶林枯落物持水特性[J].应用生态学报,2008,19(11):2346. CHANG Yajun, CAO Jing, MA Jianwei, et al. Water-holding characteristics of coniferous forest litters in west Qinling Mountains[J]. Chinese Journal of Applied Ecology,2008,19(11):2346.
|
[10] |
薛立,何跃君,屈明,等.华南典型人工林枯落物的持水特性[J].植物生态学报,2005,29(3):415. XUE Li, HE YueJun, QU Ming, et al. Water holding characteristics of litter in plantations in South China[J].Acta Phytoecologica Sinica,2005,29(3):415.
|
[11] |
杨玉莲,马兴艳,吴庆贵,等.龙门山断裂带主要森林类型枯落物累积量及其持水特性[J].水土保持通报,2014,34(3):69. YANG Yulian, MA Xingyan, WU Qinggui, et al. Accumulation amount of litter and their water-holding characteristics under main forest types in Longmen Mountains Fault Zone[J].Bulletin of Soil and Water Conservation,2014,34(3):69.
|
[12] |
魏强,凌雷,张广忠,等.甘肃兴隆山主要森林类型枯落物累积量及持水特性[J].应用生态学报,2011,22(10):2589. WEI Qiang, LING Lei, ZHANG Guangzhong, et al. Water-holding characteristics and accumulation amount of the litters under main forest types in Xinglong Mountain of Gansu, Northwest China[J].Chinese Journal of Applied Ecology,2011,22(10):2589.
|
[13] |
李强,周道玮,陈笑莹.地上枯落物的累积、分解及其在陆地生态系统中的作用[J].生态学报,2014,34(14):3807. LI Qiang, ZHOU Daowei, CHEN Xiaoying. The accumulation decomposition and ecological effects of above-ground litter in terrestrial ecosystem[J].Acta Ecologica Sinica,2014,34(14):3807.
|
[14] |
王勤,张宗应,徐小牛.安徽大别山库区不同林分类型的土壤特性及其水源涵养功能[J].水土保持学报,2003,17(3):59. WANG Qin, ZHANG Zongying, XU Xiaoniu. Soil properties and water conservation function of different forest types in Dabieshan District[J].Anhui Journal of Soil Water Conservation,2003,17(3):59.
|
[15] |
韩春华,赵雨森,辛颖,等.阿什河上游小流域主要林分枯落物层的持水特性[J].林业科学研究,2012,25(2):212. HAN Chunhua, ZHAO Yusen, XIN Ying, et al. Water-holding characteristics of litter layers of main forest types in the upstream small watershed of Ashi River[J].Forest Research,2012,25(2):212.
|
[16] |
PAUSAS J G. Litter fall and litter decomposition in Pinus sylvestris forests of the Eastern Pyrenees[J]. Journal of Vegetation Science,1997(8):643.
|
[17] |
吴中能,刘俊龙,于一苏,等. 皖东低丘主要森林类型枯落物水文特性[J].林业科技开发,2010,24(1):27. WU Zhongneng, LIU Junlong, YU Yisu, et al. Research on hydrological characteristics of litter under main forest types in the low hills of Eastern Anhui[J].China Forestry Science and Technology,2010,24(1):27.
|
[18] |
张银龙,王月菡,王亚超,等.南京市典型森林群落枯枝落叶层的生态功能研究[J].生态与农村环境学报,2006,22(1):11. ZHANG Yinlong, WANG Yuehan, WANG Yachao, et al. Ecological functions of forest floors of typical forest communities in Nanjing[J]. Journal of Ecology and Rural Environment, 2006, 22(1):11.
|
[19] |
张洪江,程金花,余新晓,等.贡嘎山冷杉纯林枯落物储量及其持水特性[J].林业科学,2003,39(5):147. ZHANG Hongjiang, CHENG Jinhua, YU Xinxiao, et al. The litter reserves and their water retaining capacity under Abies fabri forest on the Gongga Mountain, Sichuan Province[J]. Scientia Silvae Sinicae, 2003, 39(5):147.
|
[20] |
孙艳红,张洪江,杜士才,等.四面山不同林地类型土壤特性及其水源涵养功能[J].水土保持学报,2009,23(5):110. SUN Yanhong, ZHANG Hongjiang, DU Shicai, et al. Soil characteristics and water conservation function of different forest types in Simian Mountains[J]. Journal of Soil and Water Conservation, 2009, 23(5):110.
|
[21] |
饶良懿,朱金兆,毕华兴. 重庆四面山森林枯落物和土壤水文效应[J].北京林业大学学报,2005,27(1):33. RAO Liangyi, ZHU Jinzhao, BI Huaxing. Hydrological effects of forest litters and soil in the Simian Mountain of Chongqing City[J].Journal of Beijing Forestry University, 2005,27(1):3.
|
[22] |
王云琦,王玉杰,张洪江,等.重庆缙云山几种典型植被枯落物水文特性研究[J].水土保持学报,2004,18(3):41. WANGYunqi, WANG Yujie, ZHANG Hongjiang, et al. Research on litter hydrology characteristic of typical vegetation in Jinyun Mountain in Chongqing City[J].Journal of Soil and Water Conservation,2004,18(3):41.
|
[23] |
樊登星,余新晓,岳永杰.北京西山不同林分枯落物层持水特性研究[J].北京林业大学学报,2008,30(增刊.2):177. FAN Dengxing, YU Xinxiao, YUE Yiongjie. Water holding characteristics of litter layer of different forest stands in Xishan Mountain in Beijing[J].Journal of Beijing Forestry University,2008,30(S2):177.
|
[24] |
雷瑞德. 秦岭火地塘林区华山松林水源涵养功能的研究[J].西北林学院学报,1984,1(1):19. LEI Ruide. Study on water holding function of Pinus armandii forest in the Huoditang area of Qinling Mountains[J].Journal of Northwest Forestry University,1984,1(1):19.
|
|
|
|