TY  - JOUR
A1  - Lachmuth, Susanne
A1  - Henrichmann, Colette
A1  - Horn, Juliane
A1  - Pagel, Jörn
A1  - Schurr, Frank M.
T1  - Neighbourhood effects on plant reproduction
BT  - an experimental-analytical framework and its application to the invasive Senecio inaequidens
JF  - The journal of ecology
N2  - Density dependence is of fundamental importance for population and range dynamics. Density-dependent reproduction of plants arises from competitive and facilitative plant-plant interactions that can be pollination independent or pollination mediated. In small and sparse populations, conspecific density dependence often turns from negative to positive and causes Allee effects. Reproduction may also increase with heterospecific density (community-level Allee effect), but the underlying mechanisms are poorly understood and the consequences for community dynamics can be complex. Allee effects have crucial consequences for the conservation of declining species, but also the dynamics of range edge populations. In invasive species, Allee effects may slow or stop range expansion. Observational studies in natural plant communities cannot distinguish whether reproduction is limited by pollination-mediated interactions among plants or by other neighbourhood effects (e.g. competition for abiotic resources). Even experimental pollen supply cannot distinguish whether variation in reproduction is caused by direct density effects or by plant traits correlated with density. Finally, it is unknown over which spatial scales pollination-mediated interactions occur. To circumvent these problems, we introduce a comprehensive experimental and analytical framework which simultaneously (1) manipulates pollen availability and quality by hand pollination and pollinator exclusion, (2) manipulates neighbourhoods by transplanting target plants, and (3) analyses the effects of con- and heterospecific neighbourhoods on reproduction with spatially explicit trait-based neighbourhood models. Synthesis. By manipulating both pollen availability and target plant locations within neighbourhoods, we can comprehensively analyse spatially explicit density dependence of plant reproduction. This experimental approach enhances our ability to understand the dynamics of sparse populations and of species geographical ranges.
KW  - Allee effect
KW  - biological invasion
KW  - competition
KW  - density dependence
KW  - facilitation
KW  - plant-plant interactions
KW  - pollination
KW  - reproductive success
KW  - spatially explicit model
KW  - trait-based neighbourhood model
Y1  - 2017
U6  - https://doi.org/10.1111/1365-2745.12816
SN  - 0022-0477
SN  - 1365-2745
VL  - 106
IS  - 2
SP  - 761
EP  - 773
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Eccard, Jana
A1  - Herde, Antje
A1  - Schuster, Andrea C.
A1  - Liesenjohann, Thilo
A1  - Knopp, Tatjana
A1  - Heckel, Gerald
A1  - Dammhahn, Melanie
T1  - Fitness, risk taking, and spatial behavior covary with boldness in experimental vole populations
JF  - Ecology And Evolution
N2  - Individuals of a population may vary along a pace-of-life syndrome from highly fecund, short-lived, bold, dispersive “fast” types at one end of the spectrum to less fecund, long-lived, shy, plastic “slow” types at the other end. Risk-taking behavior might mediate the underlying life history trade-off, but empirical evidence supporting this hypothesis is still ambiguous. Using experimentally created populations of common voles (Microtus arvalis)—a species with distinct seasonal life history trajectories—we aimed to test whether individual differences in boldness behavior covary with risk taking, space use, and fitness. We quantified risk taking, space use (via automated tracking), survival, and reproductive success (via genetic parentage analysis) in 8 to 14 experimental, mixed-sex populations of 113 common voles of known boldness type in large grassland enclosures over a significant part of their adult life span and two reproductive events. Populations were assorted to contain extreme boldness types (bold or shy) of both sexes. Bolder individuals took more risks than shyer ones, which did not affect survival. Bolder males but not females produced more offspring than shy conspecifics. Daily home range and core area sizes, based on 95% and 50% Kernel density estimates (20 ± 10 per individual, n = 54 individuals), were highly repeatable over time. Individual space use unfolded differently for sex-boldness type combinations over the course of the experiment. While day ranges decreased for shy females, they increased for bold females and all males. Space use trajectories may, hence, indicate differences in coping styles when confronted with a novel social and physical environment. Thus, interindividual differences in boldness predict risk taking under near-natural conditions and have consequences for fitness in males, which have a higher reproductive potential than females. Given extreme inter- and intra-annual fluctuations in population density in the study species and its short life span, density-dependent fluctuating selection operating differently on the sexes might maintain (co)variation in boldness, risk taking, and pace-of-life.
KW  - animal personality
KW  - automated radio telemetry
KW  - behavioral type
KW  - fitness
KW  - home range
KW  - Microtus arvalis
KW  - parentage
KW  - reproductive success
Y1  - 2022
U6  - https://doi.org/10.1002/ece3.8521
SN  - 2045-7758
SP  - 1
EP  - 15
PB  - John Wiley & Sons, Inc.
CY  - Vereinigte Staaten
ER  -