Chinese Journal of Applied Ecology ›› 2001, Vol. ›› Issue (6): 943-946.
• Articles • Previous Articles Next Articles
WU Yuhuan1, HUANG Guohong1, GAO Qian1, CAO Tong2
Received:
2001-01-12
Revised:
2001-04-09
Online:
2001-11-25
CLC Number:
WU Yuhuan, HUANG Guohong, GAO Qian, CAO Tong. Research advance in response and adaptation of bryophytes to environmental change[J]. Chinese Journal of Applied Ecology, 2001, (6): 943-946.
[1] Alpert P, Oechel WC. 1985. Carbon balance limits the microdistribution of Grimmia laevingata, a desiccation tolerant plant. Ecology, 66(3) :660~669 [2] Alpert P, Oechel WC. 1987.Comparative patterns of net photosynthesis in an assemblage of mosses with contrasting microdistributions.AmerJ Bot, 74(9): 1787~ 1796 [3] Alpert P. 1988. Survival of a desiccation-tolerant moss, Grimmia laevigata beyond its observed microdistributional limits. J Bryol, 15 (3):219~228 [4] Aravena R, Warner BG. 1992. Oxygen-18 composition of Sphagnum and microenvironmental water relat ions. Bryologist, 95 (4): 445 ~ 448 [5] Barcikowski A, Loro OM. 1999. Changes in chlorophyll content throughout the year in selected species of moss on King George Island, South Shetland Islands, maritime Antarctic. Pol Polar Res, 20(3) :291 ~299 [6] Bates JW, Ashton NW, Duckett JG eds. Bryology for the Twenty-first Century. Leeds: BBS and Maney Publishing. 261 ~ 368. [7] Beckett RP. 1997. Pressure volume analysis of a range of poikilohydic plants implies the existence of negative turg or in vegetative cells. Ann Bot, 79(2): 145~152 [8] Buescher P, Koedam N, Speybroek D. 1990. Cation-exchange proper-ties and adaptation to soil acidity in bryophytes. New Phytol, 115(2):177~186 [9] Cao T(曹同),Lu Y(路勇),Wu Y-H(吴玉环)et al.1998.Bioindication of bryophytes to environmental pollution in Anshan city.chin J Appl Ecol(应用生态学报),9(6):635~639(in Chinese) [10] Cameron AJ, Nickless G. 1977. Use of mosses as collectors of airborne heavy metals near a smelting complex. Water Air Soil Poll, 7(1): 117~125 [11] Crites S, Dale MRT. 1998. Diversity and abundance of bryophytes, lichens, and fungi in relation to woody substrate and successional stage in aspen mixedwood boreal forests. Can JBot, 76(4): 641 ~ 651 [12] Du Q-M(杜庆民),Zheng X-H(郑学海),Cai H-C(蔡海超) et al.1989.On the method for monitoring atmospheric particles and other pollutants bymeans ofmoss bags.Chin J Ecol(生态学杂志),8(1):56~60(in Chinese) [13] Duff RJ, Oliver MJ, Wood AJ. 1999. A Tortula ruralis cDNA encoding small-subunit ribosomal protein S3a: polysomal retention of transcript in response to desiccation and rehydration. Bryologist, 102 (3):418~425 [14] Eckstein RL. 2000. Nitrogen retention by Hylocomium splendens in a subarctic birch woodland. J Ecol, 88 (3): 306~ 315 [15] Frahm JP. 1990. The effect of light and temperature on the growth of the bryophytes of tropical rain forests. Norva Hedwigia, 51 (2): 151 ~164 [16] Galimov EM. 2000. Carbon isotope composition of antarctic plants. Geot Cosmo Acta, 64(10): 1737~ 1739 [17] Gao C-H(高彩华),Bi P-P(毕培曦).1990.Comparison of the airquality between Hong Kong and Shanghi.Shanghai Environ Sci(上海环境科学),9(1):30~31(in Chinese) [18] Gao X-Y(高秀英),Shi D-J(施定基),Zhou Y-L(周云龙)et al1998. Comparison studies on ultrastructure of photosynthetic apparatus in gametophytes and sporophytes of bryophytes. Chenia, 5: 59 ~ 60 [19] Glime JM, Iwatsuki Z. 1994. Geothermal communities of Ponponyama, Hokkaido, Japan. J Hattod Bot Lab, 75:133 ~ 147 [20] Glooschenko WA. 1989. Moss as an indicator of atmospheric cadmium deposition across Canada. Environ Poll, 57 (1) :27~ 33 [21] Green TGA, Schroeter B, Kappen L et al. 1998. An assessment of the relationship between chlorophyll fluorescence and CO2 gas exchange from field measurements on a moss and lichen. Planta, 206 (4) :611 ~·618 [22] Hanslin HM, Fjellviks A, Bakken S. 1999. Desigh, technical specification, and operation of growth chambers with computer controlled system for regulating relative humidity suitable for ecophysiological experiments with bryophytes. J Bryol, 21(4) :217~279 [23] Hartung W, Hellwege EM, Volk OK. 1994. The function of abscisic acid in bryophytss. J Hattoroi Lab, 76: 59~ 65 [24] Kapur A, Chopra RN. 1989. Effects of some metal ions on protomental growth and bud formation in the moss Timmiella anomala grown in aseptic cultures. J Hattori Bot Lab, 66: 283 ~ 298 [25] Kershaw KA, Webber MR. 1986. Seasonal changes in the chlorophyll content and quantum efficiency of the moss Brachytheciurn rutabulum. JBryol, 14:151 ~ 158 [26] Lai M-Z(赖明洲)1998 Bryophyteindicatorfor environrent.In:Wu P-C(吴鹏程)ed.Bryological Biology,Introduction and Diverse Branch-es.Beijing:Science Press.318~328(in Chinese) [27] Li D-K(李登科),Gao C-H(高彩华).1981.Bryophytes and air pollution in Shanghi.Plant Mag(植物杂志),4:6(in Chinese) [28] Li J, Liu YD, Cao T et al. 1999. A comparative study on ecophysiological characteristics of the few overwintering host mosses of gallaphids.NovaHedwigia, 68: 233 ~ 240 [29] Li XD, Liu JX, Chen FD. 1998. A preliminary study on bryophyte' s containing water and storing water in the Fildes Peninsula King George Island, Antarctica. Chenia, 5: 231 ~ 234 [30] Li Y-H(李燕红).1998.Physiogical ecology of bryophytes.In:Wu P-C(吴鹏程)d.Bryological Biology,Introduction and Diverse Branches. Beijing: Sciences Press. 131 ~ 147(in Chinese) [31] Li Y, Glime JM. 1990. Growth and nutrient ecology of two Sphagnum species. Hikobia, 10: 445 ~ 451 [32] Li Y, Glime JM. 1991. Growth response of two Sphagnum species to photoperiod. Can J Bot, 69: 2643 ~ 2646 [33] Lin QW. 1998. Relationship between distribution of bryophytes and atmospheric pollution. Chenia, 5: 115~ 119 [34] Liu YD, Li J, Hou JJ et al. 1999. The measurement of net photosynthesis of three species of Plagiomnium mosses and its relation to the light and temperature. J Hattori Bot Lab, 87: 315 ~ 324 [35] LiuY-D(刘应迪),LiQ(李菁),Shi J-X(石进校).1994.The effect of hightemperature and desiccation onthe water content and vitality of the over-wintering host(mosses)of Gallaphides.Chenia,2:25~32(in Chinese) [36] Liu Y-D(刘应迪),Li J(李菁),Chen J(陈军)et al.2000.Net photosynthetic rate of two species of wintering host mosses for gullaphis and its responsetolight,temperature and water content.Chin JAppl Ecol(应用生态学报),11(5):687~692(in Chinese) [37] Liu Y-D(刘应迪),Chen J(陈军),Zhang LJ(张丽娟)et al.2001.Photosynthetic characteristics oftwo Plagiomnium mosses in Summer and Winter.Chin J Appl Ecol(应用生态学报),12(1):39~42(in Chinese) [38] Marschall M, Proctor MCF. 1999. Desiccation tolerance and recovery of the leaf liverwort Porella platyphylla (L.) Pfeiff. :chlorophyll fluorescence measurements. J Bryol, 21 (4): 257~ 262 [39] Martinez-abaigar J, Nunez-olivera E, Sanchez-Diaz M. 1993. Effects of organic pollution on transplanted aquatic bryophytes. J Bryol, 17 (4):553 ~ 566 [40] Mccall KK, Martin CE. 1991. Chlorophyll concentrations and photosynthesis in three forest understory mosses in northeastern Kansas. Bryologist, 94(1) :25 ~ 29 [41] Meenks JLD, Tuba Z, Csintalan Z. 1991. Eco-physiological responses of Tortula ruralis upon transplantation around a power plant in west Hungary. J Hattori Bot Lab, 69: 21 ~ 35 [42] Proctor MCF, Raven JA, Rice SK. 1992. Stable carbon isotope discrimination measurements in Sphagnum and other bryophytes: physiological and ecological implications. J Bryol, 17 (2): 193 ~ 202 [43] Proctor MCF. 1999. Water-relations parameters of some bryophytes evaluated by thermocouple psychrometry. J Bryol, 21 (4): 263 ~ 270 [44] Rambo TR, Muir PS. 1998. Forest floor bryophytes of Pseudotsuga menziesii-Tsuga heterophylla stands in Oregan: influences of substrate and overstory. Bryologist, 101 (1): 116~130 [45] Rice SK, Giles L. 1996. The influence of water content and leaf anatomy on carbon isotope discrimination and photosynthesis in Sphagnum. Plant Cell Environ, 19(1): 118 ~ 124 [46] Rice SK. 2000. Variation in carbon isotope discrimination within and among Sphagnum species in a temperate wetland. Oecologia, 123(1): 1~8 [47] Richardson DHS. 1981. The Biology of Mosses. London:Blackwell Scientific Publications. 17~ 27 [48] Rincon E, Grime JP. 1989. An analysis of seasonal patterns of bryophyte growth in a natural habitat. J Ecol,77(1) :447~455 [49] Rincon E. 1993. Growth responses of six bryophyte species to different light intensities. Can JBot, 71 (3): 661 ~ 665 [50] Robinson SA, Wasley J, Popp M et al. 2000. Desiccation tolerance of three moss species from continental Antarctica. Austra J Plant Physiol, 27(5): 379 ~ 388 [51] Santarius KA. 1994. Apoplasmic water fractions and osmotic water potentials at full turgidity of some Bryidae. Planta, 193(1): 32 ~ 37 [52] Schroeter B et al. 1999. In situ comparison of daily photosynthetic activity patterns of saxicolous lichens and mosses in Sierra de Guadarrama, Central Spain. Bryologist, 102(4) :623~ 633 [53] Shaw AJ. 1990. Metal tolerances and cotolerances in the rno~, Funar- ia hygrometrica Hedw. Can J Bot, 68 (11): 2275 ~ 2282 [54] Shaw JE, Jules S, Beer SC. 1991. Effects of metals on growth, morphology, and reproduction of Ceratodon purpureus. Bryologist, 94(3): 270 ~ 279 [55] Shi D-J(施定基),Wu P-C(吴鹏程),Chou Y-Y(仇嫒嫒)et al. 1992.Comparative studies on photosynthetic fluorescence spectra and fluoreseence kinetics of bryophytes.Acta Phyto Sin(植物分类学报),30(4):320~330(in Chinese) [56] Silvola J, Aaltonen H. 1984. Water content and photosynthesis in peat mosses Sphagnum fuscum and S. angustifolium. Ann Bot Fennic,21(1):1~6 [57] Silvola J. 1991. Moisture dependence of CO2 exchange and its recovery after drying in certain boreal forest and peat mosses. Lindbergia, 17(1):5~10 [58] Smirnoff N. 1992. The carbohydrates of bryophytes in relation to desiccation tolerance. J Bryol , 17(3): 185~191 [59] Smith EC, Griffiths H. 1996. A pyrenoid-based carbon-concentrating mechanism is present in terrestrial bryophytes of the class Anthocerotae. Planta, 200(2) :203~212 [60] Smith EC, Griffiths H. 1996. The occurrence of the chloroplast pyrenoid is correlated with the activity of a CO2-concentrating mechanism and carbon isotope discrimination in lichens and bryophytes. Planta, 198(1): 6~16 [61] TangL-J(唐礼俊),Yang S-H(杨思河),CaoT(曹同)et al.1995. Photosynthesis of bryophytes within main ecosystems in Changbai Mountain.ActaEcol Sin(生态学报),15(B):75~80(in Chinese) [62] Tang L-J(唐礼俊),Yang S-H(杨思河),Lin J-H(林继惠)et al. 1998.Effects of desiccation and rehydration on the CO2 assimilation and respiration of bryophytes in the Changbai Mountain.Chin J Appl Environ Biol(应用与环境生物学报),4(1):6~9(in Chinese) [63] Tuba Z. 1987. Light temperature and desiccation responses of CO2-exchange in the desiccation-tolerant moss, Tortula ruralis. Symp Bio Hungari, 35: 137 ~ 149 [64] Tyler G. 1990. Bryophytes and heavy metals:a literature review. Bot J Linn Soc, 104(2) :231~253 [65] Vasander H, Jauhiainen J, Karsisto M et al. 1996. Resporse of Sphagna to changing environment. In: Roos J ed. The Finnish Research Program on Climate Change. Helsinki, 353 ~ 358 [66] Williams TG, Flanagan LB. 1996. Effect of changes in water content ion photosynthesis, transpiration and discrimination against 13CO2 and C18O16O in Pleurozium and Sphagnum. Oecologia, 108(1): 28~ 46 [67] Wu P-C(吴鹏程),Luo J-X(罗健馨).1979 Bryophytes in air pollution monitoring.Environ Sci(环境科学),3(1):68~72(in Chinese) [68] Sie W(谢维),Cao T(曹同),Han G-C(韩桂春)et al.1999. Studies on indication of bryophytes to air pollution in Fushun District,Norrheast China.Chin J Ecol(生态学杂志),18(3):1~5(in Chinese) |
[1] | ZHAO Yunge, JI Jingyi, ZHANG Wantao, MING Jiao, HUANG Wanyun, GAO Liqian. Characteristics of spatial and temporal variability in the distribution of biological soil crusts on the Loess Plateau, China [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 739-748. |
[2] | CAI Lulu, SUN Shoujia, SHI Guangyao, DU Lingtong, NI Xilu, ZHANG Jinsong, MENG Ping. Relationship between negative air ion and PM2.5 in Quercus variabilis under natural conditions [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 347-353. |
[3] | SHENG Piao, YANG Min, SHI Zhining, YANG Jianzhong, ZHANG Zhimin, YANG Xu, XIN Wei , ZHU Mingsheng, MEI Xiaole, CHEN Yushun. Characteristics of fish community structure and environmental driving factors in Taihu Lake during the first year of fishing ban [J]. Chinese Journal of Applied Ecology, 2023, 34(9): 2555-2565. |
[4] | MA Yunhui, MA Changming, FENG Shuyao, GUO Yanpeng, LIU Bingxiang. Understory fuel loads and the impact factors of Quercus mongolica natural secondary forest in Hebei Pro-vince, China [J]. Chinese Journal of Applied Ecology, 2023, 34(8): 2082-2090. |
[5] | KONG Dongyan, YANG Lingfang, DIAO Jingwen, GUO Peng. Meta-analysis on the effects of nitrogen deposition on soil N2O flux in different habitats [J]. Chinese Journal of Applied Ecology, 2023, 34(8): 2171-2177. |
[6] | LU Yue, HU En, DING Yitong, GUO Shansong, LI Gang, PAN Baozhu. Characteristics of phytoplankton community and its influencing factors in the Yanhe River Basin, Northwest China [J]. Chinese Journal of Applied Ecology, 2023, 34(6): 1669-1679. |
[7] | WANG Shijia, GUO Yafen, CUI Xiaoyang. Responses of soil enzyme activity to freeze-thaw alternation in Greater Khingan Mountains, China [J]. Chinese Journal of Applied Ecology, 2023, 34(5): 1211-1217. |
[8] | JIN Taotao, ZHANG Foyi, ZHENG Weibin, XUE Huajian, LUO Tianyu, ZHANG Miao, LIU Wei, WANG Qiong. Diversity of medium and small-sized soil fauna community in different urban-rural green spaces and its influencing factors in Nanchang, China [J]. Chinese Journal of Applied Ecology, 2023, 34(5): 1404-1414. |
[9] | ZUO Yifan, HE Yufan, WANG Lu, SA Wei, SHANG Qianhan, LIANG Jian, WANG Le, LI Zhonghu. Change of geographic distributions of the genus Morchella species responding to climate oscillations in East Asia. [J]. Chinese Journal of Applied Ecology, 2023, 34(3): 777-786. |
[10] | YUAN Xingwei, JIANG Yazhou, GAO Xiaodi, YANG Linlin, LIU Zunlei, CHENG Jiahua. Spatiotemporal distribution of Lophius litulon in the southern Yellow Sea and East China Sea [J]. Chinese Journal of Applied Ecology, 2023, 34(2): 519-526. |
[11] | TAN Yibo, ZHANG Tong, JIANG Xingjian, SHEN Wenhui, YE Jianping. Altitudinal variation pattern in Daphniphyllum macropodum leaf traits and influencing environmental factors in Mao’er Mountain, China [J]. Chinese Journal of Applied Ecology, 2023, 34(12): 3223-3231. |
[12] | YIN Zaifang, SUN Honggang, TAN Zifeng, LIU Wei. Research progress on productivity of mixed forest. [J]. Chinese Journal of Applied Ecology, 2023, 34(11): 3135-3143. |
[13] | LIU Yuanhao, DU Xulong, HUANG Jinxue, XIONG Decheng. Effect of environmental factors on mineral soil respiration: A review [J]. Chinese Journal of Applied Ecology, 2023, 34(10): 2835-2844. |
[14] | GUO Yue-wei, ZHAO Yun-ge, QIAN Xu-kun, WAN Yang-zhuo-qun, WANG Shan-shan. Seasonal differences in vegetative regeneration of three desiccation-tolerant mosses in the Loess Plateau and its mechanism [J]. Chinese Journal of Applied Ecology, 2022, 33(7): 1738-1746. |
[15] | LI Jia-qi, HUANG Ya-nan, SHI Pei-jun, LI Zhi. Isotopic characteristics and vapor sources of atmospheric precipitation in the loess region of North Shaanxi, China [J]. Chinese Journal of Applied Ecology, 2022, 33(6): 1459-1465. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||