Biodiv Sci ›› 2021, Vol. 29 ›› Issue (7): 995-1001. DOI: 10.17520/biods.2020449
• Reviews • Previous Articles
Qin Wang1, Yuan Chen2, Yang Yu1*(), Zuofu Xiang1*()
Received:
2020-12-05
Accepted:
2021-03-09
Online:
2021-07-20
Published:
2021-05-28
Contact:
* E-mail: yuyangjcl@126.com; xiangzf@csuft.edu.cn
Qin Wang, Yuan Chen, Yang Yu, Zuofu Xiang. Dispersal of spore plants by animals: Patterns and evolutionary significance[J]. Biodiv Sci, 2021, 29(7): 995-1001.
[1] |
Andersen SB, Gerritsma S, Yusah KM, Mayntz D, Hywel-Jones NL, Billen J, Boomsma JJ, Hughes DP (2009) The life of a dead ant: The expression of an adaptive extended phenotype. The American Naturalist, 174, 424-433.
DOI PMID |
[2] |
Arosa ML, Ramos JA, Quintanilla LG, Brown D (2010) First report of fern (Culcita macrocarpa) spore consumption by a small mammal (Apodemus sylvaticus). Mammalian Biology, 75, 115-121.
DOI URL |
[3] | Arosa ML, Ramos JA, Valkenburg T, Ceia R, Laborda H, Quintanilla LG, Heleno R (2009) Fern feeding ecology of the Azores bullfinch Pyrrhula murina: The selection of fern species and the influence of nutritional composition in fern choice. Ardeola, 56, 71-84. |
[4] |
Bailey RH, James PW (1979) Birds and the dispersal of lichen propagules. The Lichenologist, 11, 105-106.
DOI URL |
[5] |
Barbé M, Chavel ÉE, Fenton NJ, Imbeau L, Mazerolle MJ, Drapeau P, Bergeron Y (2016) Dispersal of bryophytes and ferns is facilitated by small mammals in the boreal forest. Ecoscience, 23, 67-76.
DOI URL |
[6] |
Bay G, Nahar N, Oubre M, Whitehouse MJ, Wardle DA, Zackrisson O, Nilsson MC, Rasmussen U (2013) Boreal feather mosses secrete chemical signals to gain nitrogen. New Phytologist, 200, 54-60.
DOI URL |
[7] |
Bisang I, Hedenäs L (2015) Mass-occurrence of springtails on Tortula cernua (Huebener) Lindb.: A field-observation of possible animal-mediated fertilization. Journal of Bryology, 37, 339-341.
DOI URL |
[8] |
Boch S, Berlinger M, Prati D, Fischer M (2016) Is fern endozoochory widespread among fern-eating herbivores? Plant Ecology, 217, 13-20.
DOI URL |
[9] |
Boch S, Prati D, Werth S, Rüetschi J, Fischer M (2011) Lichen endozoochory by snails. PLoS ONE, 6, e18770.
DOI URL |
[10] |
Bråthen KA, González VT, Iversen M, Killengreen S, Ravolainen VT, Ims RA, Yoccoz NG (2007) Endozoochory varies with ecological scale and context. Ecography, 30, 308-320.
DOI URL |
[11] |
Chen G, Zhang RR, Liu Y, Sun WB (2014) Spore dispersal of fetid Lysurus mokusin by feces of mycophagous insects. Journal of Chemical Ecology, 40, 893-899.
DOI PMID |
[12] | Chmielewski MW, Eppley SM (2019) Forest passerines as a novel dispersal vector of viable bryophyte propagules. Proceedings of the Royal Society B: Biological Sciences, 286, 20182253. |
[13] |
Clark KL, Nadkarni NM, Gholz HL (2005) Retention of inorganic nitrogen by epiphytic bryophytes in a tropical montane forest. Biotropica, 37, 328-336.
DOI URL |
[14] |
Correia M, Heleno R, da Silva LP, Costa JM, Rodríguez-Echeverría S (2019) First evidence for the joint dispersal of mycorrhizal fungi and plant diaspores by birds. New Phytologist, 222, 1054-1060.
DOI |
[15] |
da Silva LP, Pereira Coutinho A, Heleno RH, Tenreiro PQ, Ramos JA (2016) Dispersal of fungi spores by non-specialized flower-visiting birds. Journal of Avian Biology, 47, 438-442.
DOI URL |
[16] |
Davidson AJ, Harborne JB, Longton RE (1990) The acceptability of mosses as food for generalist herbivores, slugs in the Arionidae. Botanical Journal of the Linnean Society, 104, 99-113.
DOI URL |
[17] |
Deane-Coe KK, Stanton D (2017) Functional ecology of cryptogams: Scaling from bryophyte, lichen, and soil crust traits to ecosystem processes. New Phytologist, 213, 993-995.
DOI URL |
[18] |
DeLuca TH, Zackrisson O, Gentili F, Sellstedt A, Nilsson MC (2007) Ecosystem controls on nitrogen fixation in boreal feather moss communities. Oecologia, 152, 121-130.
DOI URL |
[19] | Fischer OA, Vícha R (2003) Blowflies (Diptera, Calliphoridae) attracted by Phallus impudicus (Phallaceae) and Stapelia grandiflora (Asclepiadaceae). Biologia-Section Zoology, 58, 995-998. |
[20] |
Gracia ES, de Bekker C, Hanks EM, Hughes DP (2018) Within the fortress: A specialized parasite is not discriminated against in a social insect society. PLoS ONE, 13, e0193536.
DOI URL |
[21] |
Gressitt JL, Samuelson GA, Vitt DH (1968) Moss growing on living Papuan moss-forest weevils. Nature, 217, 765-767.
DOI URL |
[22] |
Haines WP, Renwick JAA (2009) Bryophytes as food: Comparative consumption and utilization of mosses by a generalist insect herbivore. Entomologia Experimentalis et Applicata, 133, 296-306.
DOI URL |
[23] |
Harinikumar KM, Bagyaraj DJ (1994) Potential of earthworms, ants, millipedes, and termites for dissemination of vesicular-arbuscular mycorrhizal fungi in soil. Biology and Fertility of Soils, 18, 115-118.
DOI URL |
[24] | Heinken T (2000) Dispersal of plants by a dog in a deciduous forest. Botanische Jahrbücher für Systematik, Pflanzengeschichte und Pflanzengeographie, 122, 449-467. |
[25] |
Heinken T, Lees R, Raudnitschka D, Runge S (2001) Epizoochorous dispersal of bryophyte stem fragments by roe deer (Capreolus capreolus) and wild boar (Sus scrofa). Journal of Bryology, 23, 293-300.
DOI URL |
[26] |
Hughes DP, Andersen SB, Hywel-Jones NL, Himaman W, Billen J, Boomsma JJ (2011) Behavioral mechanisms and morphological symptoms of zombie ants dying from fungal infection. BMC Ecology, 11, 13.
DOI PMID |
[27] |
Johnson SD, Jürgens A (2010) Convergent evolution of carrion and faecal scent mimicry in fly-pollinated angiosperm flowers and a stinkhorn fungus. South African Journal of Botany, 76, 796-807.
DOI URL |
[28] |
Kaiser R (2006) Flowers and fungi use scents to mimic each other. Science, 311, 806-807.
PMID |
[29] |
Kimmerer RW, Young CC (1995) The role of slugs in dispersal of the asexual propagules of Dicranum flagellare. The Bryologist, 98, 149-153.
DOI URL |
[30] |
Kimmerer RW, Young CC (1996) Effect of gap size and regeneration niche on species coexistence in bryophyte communities. Bulletin of the Torrey Botanical Club, 123, 16-24.
DOI URL |
[31] |
Kiviniemi K (1996) A study of adhesive seed dispersal of three species under natural conditions. Acta Botanica Neerlandica, 45, 73-83.
DOI URL |
[32] |
Lewis LR, Behling E, Gousse H, Qian E, Elphick CS, Lamarre JF, Bêty J, Liebezeit J, Rozzi R, Goffinet B (2014) First evidence of bryophyte diaspores in the plumage of transequatorial migrant birds. PeerJ, 2, e424.
DOI URL |
[33] | Lim TM (1977) Production, germination and dispersal of basidiospores of Ganoderma pseudoferreum on Hevea. Journal of the Rubber Research Institute of Malaysia, 25, 93-99. |
[34] |
Loreto RG, Araújo JPM, Kepler RM, Fleming KR, Moreau CS, Hughes DP (2018) Evidence for convergent evolution of host parasitic manipulation in response to environmental conditions. Evolution, 72, 2144-2155.
DOI URL |
[35] |
Loreto RG, Hughes DP (2016) Disease dynamics in ants: A critical review of the ecological relevance of using generalist fungi to study infections in insect societies. Advances in Genetics, 94, 287-306.
DOI PMID |
[36] | Luo JX (1977) What are bryophytes. The Plant Journal, (4), 38-40. (in Chinese) |
[ 罗健馨 (1977) 什么是苔藓植物. 植物杂志, (4), 38-40.] | |
[37] | Maciel-Silva AS, Pôrto KC (2014) Reproduction in bryophytes. In: Reproductive Biology of Plants (eds Ramawat KG, Mérillon JM, Shivanna KR), pp. 57-84. CRC Press, Boca Raton. |
[38] |
Marino P, Raguso R, Goffinet B (2009) The ecology and evolution of fly dispersed dung mosses (Family Splachnaceae): Manipulating insect behaviour through odour and visual cues. Symbiosis, 47, 61-76.
DOI URL |
[39] |
Mishler BD, Newton AE (1988) Influences of mature plants and desiccation on germination of spores and gametophyticfragments of Tortula. Journal of Bryology, 15, 327-342.
DOI URL |
[40] |
Nathan R, Katul GG, Horn HS, Thomas SM, Oren R, Avissar R, Pacala SW, Levin SA (2002) Mechanisms of long-distance dispersal of seeds by wind. Nature, 418, 409-413.
DOI URL |
[41] |
Nervo MH, Windisch PG, Seibert S (2011) Herbivory on Pecluma pectinatiformis (L.) Price (polypodiopsida) by caterpillars of Argyrosticta Hübner (Lepidoptera)—A possible case of mimicry? American Fern Journal, 101, 317-318.
DOI URL |
[42] |
Pauliuk F, Müller J, Heinken T (2011) Bryophyte dispersal by sheep on dry grassland. Nova Hedwigia, 92, 327-341.
DOI URL |
[43] | Ramsay HP, Cairns A (2004) Habitat, distribution and the phytogeographical affinities of mosses in the Wet Tropics bioregion, north-east Queensland, Australia. Cunninghamia, 8, 371-408. |
[44] |
Rose JP, Dassler CL (2017) Spore production and dispersal in two temperate fern species, with an overview of the evolution of spore production in ferns. American Fern Journal, 107, 136-155.
DOI URL |
[45] |
Roy BA (1994) The use and abuse of pollinators by fungi. Trends in Ecology & Evolution, 9, 335-339.
DOI URL |
[46] |
Rudolphi J (2009) Ant-mediated dispersal of asexual moss propagules. The Bryologist, 112, 73-79.
DOI URL |
[47] |
Sakolrak B, Blatrix R, Sangwanit U, Kobmoo N (2018) Experimental infection of the ant Polyrhachis furcata with Ophiocordyceps reveals specificity of behavioural manipulation. Fungal Ecology, 33, 122-124.
DOI URL |
[48] |
Salzmann CC, Brown A, Schiestl FP (2006) Floral scent emission and pollination syndromes: Evolutionary changes from food to sexual deception. International Journal of Plant Sciences, 167, 1197-1204.
DOI URL |
[49] |
Schupp EW, Jordano P, Gómez JM (2017) A general framework for effectiveness concepts in mutualisms. Ecology Letters, 20, 577-590.
DOI URL |
[50] | Stephens RB, Rowe RJ (2020) The underappreciated role of rodent generalists in fungal spore dispersal networks. Ecology, 101, e02972. |
[51] |
Stubbs CS (1995) Dispersal of soredia by the oribatid mite, Humerobates arborea. Mycologia, 87, 454-458.
DOI URL |
[52] |
Thomas F, Poulin R, Brodeur J (2010) Host manipulation by parasites: A multidimensional phenomenon. Oikos, 119, 1217-1223.
DOI URL |
[53] |
Tuno N (1998) Spore dispersal of Dictyophora fungi (Phallaceae) by flies. Ecological Research, 13, 7-15.
DOI URL |
[54] |
Tuno N (1999) Insect feeding on spores of a bracket fungus, Elfvingia applanata (Pers.) Karst. (Ganodermataceae, Aphyllophorales). Ecological Research, 14, 97-103.
DOI URL |
[55] |
van Tooren BF, During HJ (1988) Viable plant diaspores in the guts of earthworms. Acta Botanica Neerlandica, 37, 181-185.
DOI URL |
[56] |
Wilkinson DM, Lovas-Kiss A, Callaghan DA, Green AJ (2017) Endozoochory of large bryophyte fragments by waterbirds. Cryptogamie, Bryologie, 38, 223-228.
DOI URL |
[57] | Xiang ZF (2020) A review on the socioecology of snub-nosed monkeys. Chinese Bulletin of Life Sciences, 32, 692-703. (in Chinese with English abstract) |
[ 向左甫 (2020) 金丝猴社会生态学研究进展. 生命科学, 32, 692-703.] |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||
Copyright © 2022 Biodiversity Science
Editorial Office of Biodiversity Science, 20 Nanxincun, Xiangshan, Beijing 100093, China
Tel: 010-62836137, 62836665 E-mail: biodiversity@ibcas.ac.cn