Chinese Journal of Applied Ecology ›› 2002, Vol. ›› Issue (12): 1684-1688.
Previous Articles Next Articles
ZHANG Weiyin1, WANG Bosun1, LIAO Wenbo1, LI Mingguang1, WANG Yongjun2, ZAN Qijie2
Received:
2000-04-24
Revised:
2000-08-23
CLC Number:
ZHANG Weiyin, WANG Bosun, LIAO Wenbo, LI Mingguang, WANG Yongjun, ZAN Qijie. Progress in studies on an exotic vicious weed Mikania micrantha[J]. Chinese Journal of Applied Ecology, 2002, (12): 1684-1688.
[1] Barreto RW,Dick MW.1991.Monograph of Basidiophora(Oomycetes) with the description of a new species.Bot J Linnean Society,107(4):313~332 [2] Barreto RW,Evans HC.1995.The mycobiota of the weed Mikania micrantha in southern Brazil with particular reference to fungal pathogens for biological control.Mycol Res,99(3):343~352 [3] Bishayee A,Chatterjee M.1994.Anticarcinogenic biological response of Mikania cordata:Reflections in hepatic biotransformation systems.Cancer Let,81(2):193~200 [4] Bogidarmanti R.1989.Impact of Mikania spp. on forestry and agriculture land (in Indonesian).Buletin Penelit Hutan,511:29~40 [5] Borthakur DN.1977.Mikania and Eupatorium:Two noxious weeds of N.E.region.India Farm,26:25~26 [6] Chong DT,Tajuddin I,Samat AMS,et al.1997.Stocking rate effects on sheep and forage productivity under rubber in Malaysia.J Agric Sci,128(3):339~346 [7] Cock MJW.1982.Potential biological control agents for Mikania micrantha from the neotropical region.Trop Pest Manag,28(3):242~254 [8] Cock MJW.1982.The biology and host specificity of Liothrips mikaniae (Priesner) (Thysanoptera:Phlaeothripidae),a potential biological control agent of Mikania micrantha (Compositae).Bull Ent Res,72:523~533 [9] Dortas MEM,Aparecida MMM,Ruas PM,et al.1998.Cytogenetic analysis in populations of Mikania micrantha HBK I.(Asteraceae).Nat Rio Claro,23:61~69 [10] Dutta SK,Sarkar SK,Barbora BC.1968.Control of Mikania in tea with 2,4-D and M.C.P.A.Two Bud,15:83~84 [11] Fatuesi S,Tauili'ili P,Taotua F,et al.1991.Cultural methods of pest control of taro (Colocasia esculenta Schott) in American Samoa (South Pacific Ocean).Micronesica(supp.3):123~128 [12] Freitas AVL.1991.Variation,life cycle and systematics of Tegosa claudina (Eschscholtz) (Lepidoptera,Nymphalidae,Melitaeinae) in Sao Paulo State,Brazil.Revista Brasileira De Entomol,35(2):301~306(in Portuguese) [13] He L-P(何立平),Liang Q-Y(梁启英),Yang R-H(杨瑞华),et al.2000.An exotic weed:Mikania micrantha-Its distribution and harmfullness in Shenzhen.For Sci Technol Guangdong Prov(广东林业科技),16(3):38~40(in Chinese) [14] Holm,LG,Plucknett,DL,Pancho,JV,et al.1977.The World's Worst Weeds.Distribution and Biology.609.Honolulu:Hawaii University Press. [15] Hu Y-J(胡玉佳) & Paul P-H But(毕培曦).1994.A study on life cycle and response to herbicides of Mikania micrantha.Acta Sci Natu Univ Sunyatsen(中山大学学报),33(4):88~95(in Chinese) [16] Hu Y-J(胡玉佳) & Paul P-H But (毕培曦).2000.Morphological and structure features of Mikania micrantha flower.Acta Sci Natu Univ Sunyatsen(中山大学学报),39(6):123~125(in Chinese) [17] Huang Z-L(黄忠良),Cao H-L(曹洪麟),Liang X-D(梁晓东),et al.2000.The growth and damaging effect of Mikania micrantha in different habitats.J Trop Subtrop Bot(热带亚热带植物学报),8(2):131~138(in Chinese) [18] Ipor IB.1991.The effect of shade on the growth and development of Mikania micrantha HBK.Malaysian Appl Biol,20(1):57~63 [19] Ipor IB,Price CE.1992.Effect of shade on uptake,translocation,distribution and activity of imazapyr on Mikania micrantha H.B.K.J Plant Protect Trop,9(2):161~168 [20] Ipor IB,Price CE.1992.Influx and efflux of 14C-imazapyr in the leaf slices of Mikania micrantha H.B.K.J Plant Protect Trop,9(3):179~186 [21] Ipor IB,Price CE.1992.The effect of simulated rain on the activity and uptake of imazapyr on Mikania micrantha H.B.K.Pertanika,15(2):99~103 [22] Ipor IB,Price CE. 1994.Uptake,translocation and activity of paraquat on Mikania micrantha H.B.K.grown in different light conditions. Internat J Pest Manag,40(1):40~45 [23] Ipor IB,Tawan CS.1995.The effect of shade on leaf characteristics of Mikania micrantha (Compositae) and their influence on retention of imazapyr.Pertanika J Trop Agric Sci,18(3):163~168 [24] Ismail BS,Mah LS.1993.Effects of Mikania micrantha H.B.K.on germination and growth of weed species.Plant Soil,157(1):107~113 [25] Kong G-H(孔国辉),Wu Q-G(吴七根),Hu Q-M(胡启明).2000.Exotic weed Mikania micrantha H.B.K appeared in south China.J Trop Subtr Bot(热带亚热带植物学报),8(1):21 (in Chinese) [26] Kong G-H(孔国辉),Wu Q-G(吴七根),Hu Q-M(胡启明),et al.2000.Further supplement data on Mikania Micrantha H.B.K (Asteraceae).J Trop Subtr Bot(热带亚热带植物学报),8(2):128~130(in Chinese) [27] Lentz DL,Clark AM,Hufford CD,et al.1998. Antimicrobial properties of Honduran medicinal plants.J Ethnopharmacol,63(3):253~263. [28] Li M-G(李鸣光),Zhang W-Y(张炜银),Liao W-B(廖文波),et al.2000.The history and status of the study on Mikania micrantha.Ecol Sci(生态科学),19(3):41~45(in Chinese) [29] Maffei-Eliane MD,Marin-Morales MA,Ruas PM,et al.1999.Chromosomal polymorphism in 12 populations of Mikania micrantha (Compositae). Genet Molec Biol,22(3):433~444 [30] Parker C.1972.The Mikania problem.Pest Artic News Summ,18:312~315 [31] Peng S-L(彭少麟),Xiang Y-C(向言词).1999.The invasion of exotic plants and effects of ecosystems.Acta Ecol Sin(生态学报),19(4):560~569(in Chinese) [32] Shao H(邵华),Peng S-L(彭少麟),Wang J-D(王继栋),et al.2001.The potential utilization and exploitation of Mikania micrantha.Ecol Sci(生态科学),20(1,2):132~135(in Chinese) [33] Romero A,Carrion G.1998.First record of Dietelia portoricensis (Uredinales) from Mexico.Revista Mexicana de Micol,14(6):53~55(in Spanish) [34] Ruas PM,Ruas CF.1987.Karyotypes and chromosome morphology in the genus Mikania (Compositae) I.Cytologia (Tokyo),52(3):551~558 [35] Ruas CF,Aguiar PMLR.1997.Chromosome evolution in the genus Mikania (Compositae).Amer J Bot,84(8):1156~1163 [36] Shi Z(石铸).1985.Flora of China.Vol.74.Beijing:Science Press.(in Chinese) [37] Soerjani M,Kostermans AJGH,Tjitrosoepomo G.1987.Weed of Rice in Indonesia.Jakarta:Balai Pustaka. [38] Swamy PS,Ramakrishnan PS.1987.Contribution of Mikania micrantha during secondary successsion following slash-and-burn agriculture (Jhum) in north-east India I.Biomass,litterfall and productivity.For Ecol Manag,22:229~237 [39] Swamy PS,Ramakrishnan PS.1987.Weed potential of Mikania micrantha H.B.K.,and its control in fallows after shifting agriculture (Jhum) in North-East India.Agric Ecosyst Environ,18:195~204 [40] Swamy PS,Ramakrishnan PS.1987.Effect of fire on population dynamics of Mikania micrantha H.B.K.,during early succession after slash-and-burn agriculture (Jhum) in Northeast India.Weed Res,27(6):397~404 [41] Swamy PS,Ramakrishnan PS.1987.Contribution of Mikania micrantha during secondary successsion following slash-and-burn agriculture (Jhum) in north-east India Ⅱ.Nutrient cycling.For Ecol Manag,22:239~249 [42] Swamy PS,Ramakrishnan PS.1988.Growth and allocation patterns of Mikania micrantha in successional environments after slash and burn agriculture.Can J Bot,66:1465~1469 [43] Swamy PS,Ramakrishnan PS.1988.Effect of fire on growth and allocation strategies of Mikania micrantha H.B.K.under early succession environments.J Appl Ecol,25(2):653~658 [44] Teoh CH,Chung GF,Liau SS,et al.1985.Prospects for biological control of Mikania micrantha H.B.K. in Malaysia.Planter,61:515~530 [45] Wang B-S(王伯荪),Miao R-H(缪汝槐),Liao W-B(廖文波).2001.Revision of Mikania from China and the key of four relative species.Acta Sci Nat Univ Sunyatsen(中山大学学报),40(5):72~75(in Chinese) [46] Waterhouse DF.1994.The major arthropod pests and weeds of agriculture in southeast Asia:Distribution,importance and origin.Canberra:ACT,Australian.124~135 [47] Wen D-Z(温达志),Ye W-H(叶万辉),Feng H-L(冯惠玲),et al.2000.Comparision of basic photosynthetic characteristics between exotic invader weed Mikania micrantha and its companion species.J Trop Subtrop Bot(热带亚热带植物学报),8(2):139~146(in Chinese) [48] Zan Q-J(昝启杰),Wang Y-J(王勇军),Wang B-S(王伯荪),et al.2000.The distribution and harm of the exotic weed Mikania micrantha.Chin J Ecol(生态学杂志),19(6):58~61(in Chinese) [49] Zan Q-J(昝启杰),Wang Y-J(王勇军),Liang Q-Y(梁启英),et al.2001.Effectiveness of four herbicides on the harmful weeds Mikania micrantha.Ecol Sci(生态科学),20(1,2):32~36(in Chinese) |
[1] | LIANG Shihao, LI Wen, GAO Yu, LIU Baozhu. Correlations between ecosystem service value and landscape ecological risk and its spatial heterogeneity in Jilin Province, China [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 769-779. |
[2] | PANG Yunchao, GAO Tian, LI Xiufen, ZHAO Tongbin, WANG Xingchang, LI Rongping, YU Fengyuan, QU Shenglin, TENG Dexiong, ZHU Jiaojun. Applicability of the generalized wind profile model over mountainous forests. [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 577-586. |
[3] | ZHAO Jiapei, GUO Enliang, WANG Yongfang, KANG Yao, GU Xiling. Ecological drought monitoring of Inner Mongolia vegetation growing season based on kernel temperature vegetation drought index (kTVDI). [J]. Chinese Journal of Applied Ecology, 2023, 34(11): 2929-2937. |
[4] | WANG Xiao-la, DUAN Kai, WEI Lin. Simulation of water and carbon coupling of the Pearl River basin based on the WaSSI model [J]. Chinese Journal of Applied Ecology, 2022, 33(5): 1377-1386. |
[5] | KANG Yao, GUO En-liang, WANG Yong-fang, BAO Yu-long, BAO Yu-hai, NA Ren-mandula. Application of temperature vegetation dryness index for drought monitoring in Mongolian Plateau [J]. Chinese Journal of Applied Ecology, 2021, 32(7): 2534-2544. |
[6] | LIU Dong-ming, JI Rui-peng, CHEN Peng-shi, ZHANG Wei-wei, LI Jing. Application of evaporative demand drought index (EDDI) in drought identification of Liaoning Province, China [J]. Chinese Journal of Applied Ecology, 2020, 31(10): 3480-3488. |
[7] | LIU Jun-jie, LIU Zhu-xiu, YU Hao, YAO Qin, YU Zhen-hua, WANG Guang-hua. Biological characteristics of bacteriophages infecting three typic rhizobia of legume [J]. Chinese Journal of Applied Ecology, 2019, 30(8): 2775-2782. |
[8] | LI Lian-gang, ZHANG Ping-yu, LIU Wen-xin, LI Jing, WANG Lin-feng. Spatial-temporal evolution characteristics and influencing factors of county-scale environmental pollution in Jilin Province, Northeast China [J]. Chinese Journal of Applied Ecology, 2019, 30(7): 2361-2370. |
[9] | QI Qing, LIU Xiao-wei, TONG Shou-zheng, ZHANG Dong-jie, ZHANG Ming-ye, AN Yu, WANG Xue-hong. Comparison of ecological characteristics of Carex tussock under natural and artificial reco-very. [J]. Chinese Journal of Applied Ecology, 2019, 30(11): 3707-3715. |
[10] | MU Jia, QIU Mei-juan, GU Yu, REN Jing-quan, LIU Yang. Applicability of five drought indices for agricultural drought evaluation in Jilin Province, China. [J]. Chinese Journal of Applied Ecology, 2018, 29(8): 2624-2632. |
[11] | GUO Jie, LIU Xiao-ping, ZHANG Qin, ZHANG Dong-fang, XIE Cai-xiang, LIU Xia. Prediction for the potential distribution area of Codonopsis pilosula at global scale based on Maxent model [J]. Chinese Journal of Applied Ecology, 2017, 28(3): 992-1000. |
[12] | LI Xiu-xia, MENG Mei. Optimum population analysis of Jilin Province, China based on comprehensive carrying capacity. [J]. Chinese Journal of Applied Ecology, 2017, 28(10): 3378-3384. |
[13] | ZHAO Dan-yang, TONG Lian-jun, GUO Fu-you, QIU Fang-dao. Industrial ecological development of Jilin Province, Northeast China based on structure optimization vision. [J]. Chinese Journal of Applied Ecology, 2016, 27(9): 2933-2940. |
[14] | WU Qiang, WANG Jun, CHEN Rui-sheng, HUANG Jing-xian, ZUO Tao, LUAN Qing-shan, JIN Xian-shi. Biological characteristics, temporal-spatial distribution of Portunus trituberculatus and relationships between its density and impact factors in Laizhou Bay, Bohai Sea, China. [J]. Chinese Journal of Applied Ecology, 2016, 27(6): 1993-2001. |
[15] | WANG Ying, WU Rong-jun, GUO Zhao-bing. Applicability of established drought index in Huang-Huai-Hai region based on actual evapotranspiration. [J]. Chinese Journal of Applied Ecology, 2016, 27(5): 1603-1610. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||