Closing the seed dispersal loop

Abstract Seed dispersal links the end of the reproductive cycle of adult plants with the establishment of their offspring, and is widely accepted to have a profound effect on vegetation structure. Confirming and quantifying this effect, however, has proven to be a challenge. Recent research on animal-mediated seed dispersal has brought us closer to this goal: ecologists have been explicitly examining the processes that mediate seed deposition and seedling recruitment. Exciting new techniques, such as the analysis of stable isotope ratios and molecular genetic markers, are making it possible to relate dispersed seeds and seedlings back to parent plants. Meanwhile, evidence from plant demography research is revealing that seed dispersal might have an important role in determining patterns of tree diversity and distribution. The continued synergy between seed dispersal research and the study of plant demography should help researchers link seed dispersal and adult vegetation structure, closing the seed dispersal loop.

[1]  Kyle E. Harms,et al.  Pervasive density-dependent recruitment enhances seedling diversity in a tropical forest , 2000, Nature.

[2]  Ran Nathan,et al.  Spatial patterns of seed dispersal, their determinants and consequences for recruitment. , 2000, Trends in ecology & evolution.

[3]  Susan M. Haig,et al.  Links between worlds: unraveling migratory connectivity , 2002 .

[4]  G. Dubost,et al.  Fruit characters as a basis of fruit choice and seed dispersal in a tropical forest vertebrate community , 1985, Oecologia.

[5]  J. Connell On the role of the natural enemies in preventing competitive exclusion in some marine animals and in rain forest trees , 1971 .

[6]  E. Andresen Effects of dung presence, dung amount and secondary dispersal by dung beetles on the fate of Micropholis guyanensis (Sapotaceae) seeds in Central Amazonia , 2001, Journal of Tropical Ecology.

[7]  P. Forget,et al.  Scatter-hoarding rodents and marsupials: convergent evolution on diverging continents. , 2001, Trends in ecology & evolution.

[8]  Eugene W. Schupp,et al.  Spatial patterns of seed dispersal and the unification of plant population ecology , 1995 .

[9]  M. Miriti,et al.  No question: seed dispersal matters. , 2000, Trends in ecology & evolution.

[10]  Levey,et al.  Fruit-seed disperser interactions: timely insights from a long-term perspective. , 1999, Trends in ecology & evolution.

[11]  D. Wenny SEED DISPERSAL, SEED PREDATION, AND SEEDLING RECRUITMENT OF A NEOTROPICAL MONTANE TREE , 2000 .

[12]  Ellen Gryj,et al.  Fruit removal and postdispersal survivorship in the tropical dry forest shrub Erythroxylum havanense: ecological and evolutionary implications , 1996, Oecologia.

[13]  S. Wright,et al.  THE EL NINO SOUTHERN OSCILLATION, VARIABLE FRUIT PRODUCTION, AND FAMINE IN A TROPICAL FOREST , 1999 .

[14]  Bette A. Loiselle,et al.  Spatial genetic structure of a tropical understory shrub, PSYCHOTRIA OFFICINALIS (RuBIACEAE) , 1995 .

[15]  D. Levey,et al.  A simple method for tracking vertebrate-dispersed seeds. , 2000 .

[16]  M. Whitlock,et al.  Indirect measures of gene flow and migration: FST not equal to 1/(4Nm + 1). , 1999, Heredity.

[17]  S. B. Wall Seed Fate Pathways of Antelope Bitterbrush: Dispersal by Seed-Caching Yellow Pine Chipmunks , 1994 .

[18]  C. Julliot IMPACT OF SEED DISPERSAL BY RED HOWLER MONKEYS ALOUATTA SENICULUS ON THE SEEDLING POPULATION IN THE UNDERSTOREY OF TROPICAL RAIN FOREST , 1997 .

[19]  S. B. Wall,et al.  Recaching of Jeffrey pine (Pinus jeffreyi) seeds by yellow pine chipmunks (Tamias amoenus): potential effects on plant reproductive success , 1998 .

[20]  G. Varley,et al.  Dynamics of Populations , 1973 .

[21]  B. Bolker,et al.  Spatial Moment Equations for Plant Competition: Understanding Spatial Strategies and the Advantages of Short Dispersal , 1999, The American Naturalist.

[22]  J. A. Simonetti,et al.  Genetic Structure of a Mimosoid Tree Deprived of Its Seed Disperser, the Spider Monkey , 2000, Conservation biology : the journal of the Society for Conservation Biology.

[23]  M. Hossaert-McKey,et al.  Adaptations for a two-phase seed dispersal system involving vertebrates and ants in a hemiepiphytic fig (Ficus microcarpa: Moraceae) , 1991 .

[24]  W. Powell,et al.  Chloroplast microsatellites: new tools for studies in plant ecology and systematics , 2001 .

[25]  H. Howe Scatter-and clump-dispersal and seedling demography: hypothesis and implications , 1989, Oecologia.

[26]  M. Cain,et al.  Long-distance seed dispersal in plant populations. , 2000, American journal of botany.

[27]  P. Forget,et al.  Spatial patterns of two rodent-dispersed rain forest trees Carapa procera (Meliaceae) and Vouacapoua americana (Caesalpiniaceae) at Paracou, French Guiana , 1999, Journal of Tropical Ecology.

[28]  D. Burslem,et al.  Tropical Forest Diversity--The Plot Thickens , 2001, Science.

[29]  P. Jordano,et al.  Seed dispersal by animals: exact identification of source trees with endocarp DNA microsatellites , 2001, Molecular ecology.

[30]  B. D. Hardesty,et al.  Seed dispersal by Ceratogymna hornbills in the Dja Reserve, Cameroon , 1998, Journal of Tropical Ecology.

[31]  Stephen J. Wright,et al.  Light-Gap disturbances, recruitment limitation, and tree diversity in a neotropical forest , 1999, Science.

[32]  M. Whitlock,et al.  Indirect measures of gene flow and migration: FST≠1/(4Nm+1) , 1999, Heredity.

[33]  W. Powell,et al.  Chloroplast microsatellites: new tools for studies in plant ecology and evolution. , 2001, Trends in ecology & evolution.

[34]  C. Chapman,et al.  Frugivory and the fate of dispersed and non-dispersed seeds of six African tree species , 1996, Journal of Tropical Ecology.

[35]  Campbell O. Webb,et al.  High seed dispersal rates in faunally intact tropical rain forest: theoretical and conservation implications , 2001 .

[36]  M. Kinnaird Evidence for Effective Seed Dispersal by the Sulawesi Red‐Knobbed Hornbill, Aceros cassidix 1 , 1998 .

[37]  H. Howe,et al.  Removal of Wild Nutmeg (Virola Surinamensis) Crops by Birds , 1981 .

[38]  V. Sork,et al.  Landscape approaches to historical and contemporary gene flow in plants. , 1999, Trends in ecology & evolution.

[39]  C. Herrera LONG-TERM DYNAMICS OF MEDITERRANEAN FRUGIVOROUSBIRDS AND FLESHY FRUITS: A 12-YEAR STUDY , 1998 .

[40]  T. Smith,et al.  Seed dispersal and movement patterns in two species of Ceratogymna hornbills in a West African tropical lowland forest , 2000, Oecologia.

[41]  P. Forget Removal of seeds of Carapa procera (Meliaceae) by rodents and their fate in rainforest in French Guiana , 1996, Journal of Tropical Ecology.

[42]  N. J. Ouborg,et al.  Population genetics, molecular markers and the study of dispersal in plants , 1999 .

[43]  S. Hubbell,et al.  Strong density- and diversity-related effects help to maintain tree species diversity in a neotropical forest. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[44]  P. Jordano,et al.  RAPD variation and population genetic structure in Prunus mahaleb (Rosaceae), an animal‐dispersed tree , 2000, Molecular ecology.

[45]  J. Nason,et al.  Understanding the population genetic structure of Gleditsia triacanthos L.: seed dispersal and variation in female reproductive success , 1998 .

[46]  K. Hobson,et al.  Stable isotopes (δD and δ13C) are geographic indicators of natal origins of monarch butterflies in eastern North America , 1999, Oecologia.

[47]  F. Feer Effects of dung beetles (Scarabaeidae) on seeds dispersed by howler monkeys (Alouatta seniculus) in the French Guianan rain forest , 1999, Journal of Tropical Ecology.

[48]  C. Graham,et al.  Seed Dispersal Effectiveness by Two Bulbuls on Maesa lanceolata, an African Montane Forest Tree , 1995 .

[49]  K. Hobson Tracing origins and migration of wildlife using stable isotopes: a review , 1999, Oecologia.

[50]  P. Jordano,et al.  Recruitment of a Mast‐Fruiting, Bird‐Dispersed Tree: Bridging Frugivore Activity and Seedling Establishment , 1994 .

[51]  D. Levey,et al.  COMPLEX ANT-PLANT INTERACTIONS: RAIN FOREST ANTS AS SECONDARY DISPERSERS AND POST-DISPERSAL SEED PREDATORS' , 1993 .

[52]  D. Janzen Herbivores and the Number of Tree Species in Tropical Forests , 1970, The American Naturalist.

[53]  R. Boyd Ecological benefits of myrmecochory for the endangered chaparral shrub Fremontodendron decumbens (Sterculiaceae). , 2001, American journal of botany.

[54]  P. Jordano,et al.  SEED DISPERSER EFFECTIVENESS: THE QUANTITY COMPONENT AND PATTERNS OF SEED RAIN FOR PRUNUS MAHALEB , 2000 .