Linking animal behaviour and tree recruitment: Caching decisions by a scatter‐hoarder corvid determine seed fate in a Mediterranean agroforestry system

Seed dispersal by scatter‐hoarder corvids is key for the establishment of important tree species from the Holarctic region such as the walnut (Juglans regia). However, the factors that drive animal decisions to cache seeds in specific locations and the consequences of these decisions on seed fate are poorly understood. We experimentally created four distinct, replicated habitat types in a Mediterranean agricultural landscape where the Eurasian magpie (Pica pica) is a common scatter hoarder: soft bare soil; compacted bare soil; compacted soil with a dense herbaceous cover; and soft linear bare soil made up of the irrigation furrows that separated the rest of the treatments. We also experimentally placed visual landmarks (stones, sticks and bunches of dry plants) to test if magpies use them to place seed caches. Walnut dispersal from feeders to the habitats was monitored by radiotracking and camera traps. A sowing experiment simulating natural caches tested the effect of caching type on seed germination and seedling emergence. Seed mass was controlled for the dispersal and sowing experiments. Magpies selected the two habitats with soft soil, and avoided the one with compacted soil, to cache nuts. Seed mass did not affect dispersal distance, germination or emergence; however, heavier seeds were cached more often under litter and in the habitat with herbaceous cover, whereas lighter seeds were more often buried in the soft bare soil habitat. Seed burial under soil or litter determined seed fate, as there was virtually no emergence from unburied nuts. There was no evidence of any effect of the visual landmarks. Synthesis. The consequences of seed caching for seedling early establishment are driven by a fine decision‐making process of the disperser. Magpies seemed to ponder the characteristics of the habitat and the seed itself to determine where and how to cache each nut. By doing so, magpies reinforced the quality of seed dispersal effectiveness, as they cached walnuts in locations that enhanced both seed survival and seedling emergence.

[1]  D. Parejo,et al.  Precise cache detection by olfaction in a scatter-hoarder bird , 2020, Animal Behaviour.

[2]  J. Castro,et al.  Caching territoriality and site preferences by a scatter‐hoarder drive the spatial pattern of seed dispersal and affect seedling emergence , 2020, Journal of Ecology.

[3]  J. Castro,et al.  Massive and effective acorn dispersal into agroforestry systems by an overlooked vector, the Eurasian magpie ( Pica pica ) , 2019 .

[4]  M. Molina‐Morales,et al.  Cache Marking under Field Conditions does not Affect Nut Recovery Rate by the Eurasian Magpie Pica pica, A Scatter-Hoarder Corvid , 2019, Ardeola.

[5]  A. Jagodziński,et al.  Propagule pressure, presence of roads, and microsite variability influence dispersal of introduced Quercus rubra in temperate Pinus sylvestris forest , 2018, Forest Ecology and Management.

[6]  Joshua A. Thia,et al.  Forest disturbance and seasonal food availability influence a conditional seed dispersal mutualism , 2018, Biotropica.

[7]  J. Castro,et al.  Effective nut dispersal by magpies (Pica pica L.) in a Mediterranean agroecosystem , 2017, Oecologia.

[8]  S. A. Morrison,et al.  Spatially biased dispersal of acorns by a scatter-hoarding corvid may accelerate passive restoration of oak habitat on California’s largest island , 2016, Current zoology.

[9]  S. A. Morrison,et al.  Scatter-hoarding corvids as seed dispersers for oaks and pines: A review of a widely distributed mutualism and its utility to habitat restoration , 2016 .

[10]  M. Díaz,et al.  Landscape effects on jay foraging behavior decrease acorn dispersal services in dehesas , 2015 .

[11]  Erin K. Kuprewicz Scatter Hoarding of Seeds Confers Survival Advantages and Disadvantages to Large-Seeded Tropical Plants at Different Life Stages , 2015, PloS one.

[12]  C. Krebs,et al.  Modeling the costs and benefits of seed scatterhoarding to plants , 2015 .

[13]  R Core Team,et al.  R: A language and environment for statistical computing. , 2014 .

[14]  M. A. Steele,et al.  Directed seed dispersal by a scatter-hoarding rodent: the effects of soil water content , 2013, Animal Behaviour.

[15]  C. Krebs,et al.  Long‐term seed survival and dispersal dynamics in a rodent‐dispersed tree: testing the predator satiation hypothesis and the predator dispersal hypothesis , 2013 .

[16]  SipesA.R. Acorn germination is not enhanced near cache sites relative to random locations , 2013 .

[17]  J. Ourcival,et al.  Ecological significance of seed desiccation sensitivity in Quercus ilex. , 2013, Annals of botany.

[18]  Zhibin Zhang,et al.  Rodent-favored cache sites do not favor seedling establishment of shade-intolerant wild apricot (Prunus armeniaca Linn.) in northern China , 2013, Plant Ecology.

[19]  Á. Sánchez-Miranda,et al.  Post‐fire salvage logging alters a key plant‐animal interaction for forest regeneration , 2012 .

[20]  P. Skórka,et al.  Plant establishment and invasions: an increase in a seed disperser combined with land abandonment causes an invasion of the non-native walnut in Europe , 2012, Proceedings of the Royal Society B: Biological Sciences.

[21]  T. Smulders,et al.  Magpies can use local cues to retrieve their food caches , 2011, Animal Cognition.

[22]  P. Jordano,et al.  Seed dispersal effectiveness revisited: a conceptual review. , 2010, The New phytologist.

[23]  M. Galetti,et al.  The role of seed mass on the caching decision by agoutis, Dasyprocta leporina (Rodentia: Agoutidae) , 2010 .

[24]  K. Gould,et al.  What scatter-hoarding animals have taught us about small-scale navigation , 2010, Philosophical Transactions of the Royal Society B: Biological Sciences.

[25]  K. Shea,et al.  Are the best dispersers the best colonizers? Seed mass, dispersal and establishment in Carduus thistles , 2010, Evolutionary Ecology.

[26]  S. H. Jenkins,et al.  Forest rodents provide directed dispersal of Jeffrey pine seeds. , 2009, Ecology.

[27]  Michael J. Crawley,et al.  The R book , 2022 .

[28]  F. Hayashi,et al.  Geographic variation in walnut seed size correlates with hoarding behaviour of two rodent species , 2008, Ecological Research.

[29]  E. Schupp,et al.  Effectiveness of rodents as local seed dispersers of Holm oaks , 2008, Oecologia.

[30]  R. Swihart,et al.  Determinants of seed removal distance by scatter-hoarding rodents in deciduous forests. , 2007, Ecology.

[31]  J. Pausas,et al.  Acorn dispersal estimated by radio-tracking , 2007, Oecologia.

[32]  Zhibin Zhang,et al.  Dispersal and germination of big and small nuts of Quercus serrata in a subtropical broad-leaved evergreen forest , 2004 .

[33]  J. Gómez Importance of microhabitat and acorn burial on Quercus ilex early recruitment: non-additive effects on multiple demographic processes , 2004, Plant Ecology.

[34]  F. Bongers,et al.  SEED MASS AND MAST SEEDING ENHANCE DISPERSAL BY A NEOTROPICAL SCATTER-HOARDING RODENT , 2004 .

[35]  A. Bennett,et al.  Spatial memory in a food storing corvid , 1993, Journal of Comparative Physiology A.

[36]  J. Gómez,et al.  Spatial patterns in long-distance dispersal of Quercus ilex acorns by jays in a heterogeneous landscape , 2003 .

[37]  T. Theimer Intraspecific variation in seed size affects scatterhoarding behaviour of an Australian tropical rain-forest rodent , 2003, Journal of Tropical Ecology.

[38]  D. García,et al.  Differential effects of acorn burial and litter cover on Quercus rubra recruitment at the limit of its range in eastern North America , 2002 .

[39]  J. Veech,et al.  SEEDLING RECRUITMENT IN ORYZOPSIS HYMENOIDES: ARE DESERT GRANIVORES MUTUALISTS OR PREDATORS? , 2001 .

[40]  S. Brewer Predation and dispersal of large and small seeds of a tropical palm , 2001 .

[41]  Mark D. Dixon,et al.  Nut caching by blue jays (Cyanocitta cristata L.): implications for tree demography. , 1997 .

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

[43]  N. Franks,et al.  Food Hoarding in Animals , 1990 .

[44]  Ido Bossema,et al.  Jays and oaks: An eco-ethological study of a symbiosis , 1979 .