Abstract
Fruits and seeds are released into the water and may be submerged or floating for several days to months – a situation which normally makes most seeds unviable. Trees are adapted and seeds remain visually sound for >2 months when continuously submerged. This stands in contrast to the majority of land plants, whose seeds quickly lose viability if submerged for prolonged periods. On the contrary, seeds of floodplain species kept in air dry or decompose within few days or weeks. Many species have high nutrient contents as a function of the relation to fish dispersal, just as in upland forests diaspores of species dispersed by mammals are rich in fat and proteins. However, in Amazonian floodplain trees dispersal syndromes are closely linked to water, with all necessary adaptations enhancing floatation and attractiveness for fish. High nutrient contents are also advantageous for the seedling, because a high investment of the parent tree into seed reserves guarantees fast initial growth. This can be crucial in an environment with a flood amplitude exceeding 10m. Time for seedling establishment in the non flooded terrestrial period is reduced to few months or weeks. For a fast and well timed establishment, seeds must germinate fast and they need adequate nutrient reserves.
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References
Aleixo A (2006) Historical diversification of floodplain forest specialist species in the Amazon: a case study with two species of the avian genus Xiphorhynchus (Aves: Dendrocolaptidae). Biol J Linnean Soc 89:383–395
Allen SE (1974) Chemical analysis of ecological material. Blackwell Scientific, Oxford
Andersen MC (1993) Diaspore morphology and seed dispersal in several wind-dispersed Asteraceae. Amer J Bot 80:487–492
Anderson J, Saldana Rojas J, del Busto Rojas C (2005) Seed dispersal by a Neotropical fruit-eating fish. ESA Meeting Montreal. http://abstracts.co.allenpress.com/pweb/esa2005/document/?ID=49617
Antonik MM (2005) Population dynamics of Mauritia flexuosa: measuring the impact of white-lipped peccary on plant community structure in a tropical forest. Unpublished M.Sc. Thesis, State University New York, Syracuse, New York
Araujo-Lima CARM, Goulding M, Forsberg M, Victoria R, Martinelli L (1998) The economic value of Amazonian flooded forest from a fisheries perspective. Verh Intern Verein Limnol 26:2177–2179
Augspurger CK, Franson SE (1993) Consequences for seed distributions of intra-crop variation in wing-loading of wind-dispersed species. In: Fleming TH, Estrada E (eds) Frugivory and seed dispersal: ecological and evolutionary aspects. Kluwer, Dordrecht, The Netherlands, pp 121–132
Ayres JM (1993) As matas de várzea do Mamirauá. In: Sociedade civil Mamirauá (ed) Estudos de Mamirauá, vol.1. Sociedade civil Mamirauá, Mamirauá, pp 1-123
Balick MJ (1985) Useful plants of Amazonia: a resource of global importance. In: Prance GT, Lovejoy TE (eds) Amazonia – key environments. Pergamon, New York, pp 339–368
Bodmer RE (1990) Responses of ungulates to seasonal inundations in the Amazon floodplain. J Trop Ecol 6:191–201
Conserva AS (2007) Germinação de sementes, emergência e recrutamento de plântulas de dez espécies arbóreas das várzeas da Reserva de Desenvolvimento Sustentável Amanã e Mamirauá, Amazônia Central. Tese – INPA/UFAM, Manaus, p 132
Ducke A (1949) Arvores amazônicas e sua propagação. Bol Museu Paraense E Goeldi 10:81–92
Ferreira CS (2002) Germinação e adaptações metabólicas e morfo-anatômicas em plântulas de Himatanthus succuuba (Spruce) Wood., de ambientes de várzea e terra firme na Amazônia Central. Unpubl Master Thesis, Universidade do Amazonas (UA), Instituto Nacional de Pesquisas da Amazônia (INPA), p 95
Fleming TH, Heithaus ER (1981) Frugivorous bat, seed shadows, and the structure of tropical forests. Biotropica 13:45–53
Golley FB (1961) Energy values of ecological materials. AEC, Savannah River Project, University of Georgia. Ecology 42:581–584
Gorchov DL, Cornejo F, Ascorra CF, Jaramillo M (1995) Dietary overlap between frugivorous birds and bats in the Peruvian Amazon. Oikos 74:235–250
Gottsberger G (1978) Seed dispersal by fish in inundated regions of Humaitá, (Amazonas). Biotropica 10:170–83
Gottsberger G, Silberbauer-Gottsberger I (2006) Life in the Cerrado. Vol II Pollination and seed dispersal. Reta, Ulm
Goulding M (1980) The fishes and the forest, exploration in Amazonian natural history. University of California Press, Berkeley/Los Angeles/London
Goulding M (1983) The role of fishes in seed dispersal and plant distribution in Amazonian floodplain ecosystems. Sonderbd Naturwiss Ver Hamburg 7:271–283
Gribel R, Gibbs PE (2002) High outbreeding as a consequence of selfed ovule mortality and single vector bat pollination in the Amazonian tree Pseudobombax munguba (Bombacaceae). Int J Plant Sci 163(6):1035–1043
Grubb PJ, Coomes DA (1997) Seed mass and nutrient content in nutrient-starved tropical rainforest in Venezuela. Seed Sci Res 7:269–280
Haig D (1996) The pea and the coconut: seed size in safe sites. Tree 11:1–2
Haugaasen T, Peres CA (2005) Tree phenology in adjacent Amazonian flooded and unflooded forests. Biotropica 37(4):620–630
Hayes EF, Sewlal J-AN (2004) The Amazon river as a dispersal barrier to passerine birds: effects of river width, habitat and taxonomy. J Biogeogr 31:1809–1818
Hook DD (1984) Adaptations to flooding with fresh water. In: Kozlowski TT (ed) Flooding and plant growth. Academic Press, Orlando, FL, pp 265–294
Horn MH (1997) Evidence for dispersal of fig seeds by the fruit-eating charachid fish Brycon guatemalensis Regan in a Costa Rican tropical rain forest. Oecologia 109:259–264
Julliot C (1996) Seed dispersal by red howler monkeys (Alouatta seniculus) in a tropical rain forest. Int J Primatol 17:239–258
Koshikene D (2005) Estratégias germinativas de sete espécies florestais de diferentes estágios sucessionais da várzea na Amazônia Central. Unpublished Master Thesis, pp 74
Kubitzki K (1985a) The dispersal of forest plants. In: Prance GT, Lovejoy TE (eds) Amazonia – key environments. Pergamon, Oxford, pp 129–163
Kubitzki K (1985b) Ichthyochory in Gnetum venosum. An Acad Brasil Cienc 57:513–516
Kubitzki K (1991) Dispersal and distribution in Leopoldinia (Palmae). Nord J Bot 11:429–432
Kubitzki K, Ziburski A (1994) Seed dispersal in floodplain forest of Amazonia. Biotropica 26(1):30–43
Lambert JE, Garber PA (1998) Evolutionary and ecological implications of primate seed dispersal. Am J Primatol 45:9–28
Leck MA (1989) Wetland seed banks. In: Leck MA, Parker VT, Simpson RL (eds) Ecology of soil seed banks. Academic Press, London, pp 283–305
Lodge DM (1991) Herbivory on freshwater macrophytes. Aquat Bot 41:195–224
Macedo M, Prance GT (1978) Notes on the vegetation of Amazonia II. The dispersal of plants in Amazonian white sand campinas: the campinas as functional islands. Brittonia 30:203–215
Maia LA (1997) Influência do pulso de inundação na fisiologia, fenologia e produçao de frutos de Hevea spruceana (Euphorbiaceae) e Eschweilera tenuifolia (Lecythidaceae), em área inundável de igapó da Amazônia central. Unpublished Ph.D. Thesis, INPA/FUA Manaus, p 186
Maia LA (2001) Frutos da Amazônia: fonte de alimento para peixes. INPA Manaus: Serviço de Apoio às Micro e Pequenas Empresas do Amazonas/Sebrae, p 143
Mannheimer S, Bevilacqua G, Caramaschi EP, Scarano FR (2003) Evidence for seed dispersal by the catfish Auchenipterichthys longimanus in an Amazonian lake. J Trop Ecol 19:215–218
Marques MCM (1994) Estudos auto-ecológicos do guanandi (Calophyllum brasiliense Camb. Clusiaceae) em mata ciliar no município de Brotas, SP. Unpublished M.Sc. Thesis, Campinas
Middleton B (2000) Hydrochory, seed banks, and regeneration dynamics along the landscape boundaries of a forested wetland. Plant Ecol 146:169–184
Moegenburg SM (1996) Sabal palmetto seed size: causes of variation, choices of predators, and consequences for seedlings. Oecologia 106:539–543
Moegenburg SM (2002) Spatial and temporal variation in hydrochory in Amazonian floodplain forest. Biotropica 34:606–612
Moegenburg SM, Levey DJ (2003) Do frugivores respond to fruit harvest? An experimental study of short-term responses. Ecology 84:2600–2612
Moles AT, Westoby M (2006) Seed size and plant strategy across the whole life cycle. Oikos 113:91–105
Mori SA, Brown JL (1994) Report on wind dispersal in a lowland moist forest in Central French Guiana. http://www.nybg.org/bsci/french_guiana/wind.html
Nuñez-Iturri G, Howe HF (2007) Bushmeat and the fate of trees with seeds dispersed by large primates in a lowland rain Forest in western Amazonia. Biotropica 39:316–327
Oliveira AC, Piedade MTF (2002) Implicações ecológicas da fenologia reprodutiva de Salix martiana Leyb. (Salicaceae) em áreas de várzea da Amazônia Central. Acta Amazonica 32:377–385
Parolin P (2002d) Submergence tolerance vs. escape from submergence: two strategies of seedling establishment in Amazonian floodplains. Environm Experim Bot 48(2):177–186
Parolin P, Ferreira LV, Junk WJ (2003) Germination characteristics and establishment of trees from Central Amazonian floodplains. Trop Ecol 44:155–167
Parolin P, Junk WJ (2002) The effect of submergence on seed germination in trees from Amazonian floodplains. Bol Mus Par Emilio Goeldi Ser Bot 18:321–329
Peart MH (1981) Further experiments on the biological significance of the morphology of seed-dispersal units in grasses. J Ecol 69:425–436
Peres C (1991) Seed predation of Cariniana micrantha (Lecythidaceae) by brown capuchin monkeys in Central Amazonia. Biotropica 23:262–270
Petermann P (1997) The birds. In: Junk WJ (ed) The Central Amazon floodplain. Ecology of a pulsing system. Springer, Berlin/Heidelberg/New York, pp 419–452
Piedade MTF (1985) Ecologia e biologia reprodutiva de Astrocaryum jauari Mart. (Palmae) como exemplo de populaçao adaptada as áreas inundáveis do rio Negro. Unpublished Master thesis INPA, Manaus
Piedade MTF, Parolin P, Junk WJ (2003) Estratégias de dispersão, produção de frutos e extrativismo da palmeira Astrocaryum jauari Mart. nos igapós do Rio Negro: implicações para a ictiofauna. Ecología Aplicada 2:31–40
Piedade MTF, Parolin P, Junk WJ (2006) Phenology, fruit production and seed dispersal of Astrocaryum jauari (Arecaceae) in Amazonian black-water floodplains. Revista de Biologia Tropical 54:1171–1178
Pijl L van der (1982) Principles of seed dispersal in higher plant, 3rd edn. Springer, Berlin
Plitmann U (1986) Alternative modes in dispersal strategies, with emphasis on herbaceous plants of the Middle East. Proc Roy Soc Edinburgh 89B:193–202
Rehm S, Espig G (1976) Die Kulturpflanzen der Tropen und Subtropen. Ulmer, Stuttgart
Ridley HN (1930) The dispersal of plants throughout the world. L Reeve, Ashford, Kent
Roubach R (1995) Growth performance of Colossoma macropomum (Serrasalminae) fed with fruits from inundated forests. In: 2nd SHIFT Workshop Cuiabá, Genus Ed, pp 52–53
Saint-Paul U, Soares MGM (1995) The Amazonian inundated forest: relation between fish and environment. In: 2nd SHIFT Workshop Cuiabá, Genus Ed, pp 41–43
Salisbury EJ (1942) The reproductive capacity of plants. Bell, London, p 216
Saravy FP, Fretas PJ, Lage MA, Leite SJ, Braga LF (2003) Síndrome de dispersao em estratos arbóreos em um fragmento de floresta ombrófila aberta e densa em alta floresta – MT Revista do Programa de Ciências Agro-Ambientais. Alta Floresta 2:1–12
Snow DW (1981) Tropical frugivorous birds and their food plants: a world survey. Biotropica 13:1–14
Stoner KE, Vulinec K, Wright SJ, Peres CA (2007b) Hunting and plant community dynamics in tropical forests: a synthesis and future directions. Biotropica 39:316–327
Swaine MD, Beer T (1977) Explosive seed dispersal in Hura crepitans L. (Euphorbiaceae). New Phytol 78:695–708
Terborgh J (1990) Seed and fruit dispersal – commentary. In: Bawa KS, Hadley M (eds) Reproductive ecology of tropical forest plants. Man and the biosphere series 7:181–190
Veríssimo J (1895) A pesca na Amazônia. Livraria Clássica de Alves, Rio de Janeiro, 206 pp
Waldhoff D (1991) Morphologie, Nährwert und Bioelementgehalte hydrochor und zoochor verbreiteter Früchte und Samen aus amazonischen Überschwemmungswäldern bei Manaus. Unpublished Diploma thesis, University Kiel
Waldhoff D, Furch B (1999) Chemical composition of fruits and seeds from floodplain biotopes of the Pantanal do Mato Grosso near Cuiabá, Brazil, in comparison to those from similar ones of Central Amazonia. Convergence 1:27–41
Waldhoff D, Saint-Paul U, Furch B (1996) Value of fruits and seeds from the floodplain forests of Central Amazonia as food resource for fish. Ecotropica 2:143–156
Wenk EH, Dawson TE (2007) Interspecific differences in seed germination, establishment, and early growth in relation to preferred soil type in an alpine community. Arct Antarct Alpine Res 39:165–176
Williamson GB, Costa F (2000) Dispersal of amazonian trees: hydrochory in Pentaclethra macroloba. Biotropica 32:548–552
Wittmann F (2002) Artenverbreitung und Bestandesstruktur in amazonischen Várzea-Wäldern und Möglichkeiten der Erfassung von Waldtypen mittels fernerkundlichen Methoden. Unpublished Ph.D. thesis, University Mannheim, p 203
Wittmann F, Schöngart J, Brito JM, Oliveira Wittmann A, Parolin P, Piedade MTF, Junk WJ and Guillaumet J-L (in press) Manual of tree species in central Amazonian white-water floodplains: Taxonomy, Ecology, and Use. Instituto Nacional de Pesquisas da Amazonia - INPA, Universidade Estadual do Amazonas - UEA, Instituto de Desenvolvimento Sustentável Mamirauá - ISDM. Editora Valer, Manaus, Rio de Janeiro, Brazil
Wittmann F, Schöngart J, Junk WJ (this volume) Phytogeography, species diversity, community structure and dynamics of central Amazonian floodplain forests. In: Junk WJ, Piedade MTF, Wittmann F, Schöngart J, Parolin P (eds) Central Amazonian floodplain forests: ecophysiology, biodiversity and sustainable management. Springer, Berlin/Heidelberg/New York
Ziburski A (1990) Ausbreitungs- und Reproduktionsbiologie einiger Baumarten der amazonischen Überschwemmungswälder. Unpublished Ph.D. thesis, University Hamburg
Ziburski A (1991) Dissemination, Keimung und Etablierung einiger Baumarten der Überschwemmungswälder Amazoniens. In: Rauh W (ed) Tropische und subtropische Pflanzenwelt. Akademie der Wissenschaften und der Literatur 77:1–96
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Parolin, P., Waldhoff, D., Piedade, M.T.F. (2010). Fruit and Seed Chemistry, Biomass and Dispersal. In: Junk, W., Piedade, M., Wittmann, F., Schöngart, J., Parolin, P. (eds) Amazonian Floodplain Forests. Ecological Studies, vol 210. Springer, Dordrecht. https://doi.org/10.1007/978-90-481-8725-6_12
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