TY - JOUR A1 - Raabova, Jana A1 - Muenzbergova, Zuzana A1 - Fischer, Markus T1 - The role of spatial scale and soil for local adaptation in Inula hirta JF - Basic and applied ecology : Journal of the Gesellschaft für Ökologie N2 - Many plant populations are adapted to their local environment. Reciprocal transplant experiments in the field and in the experimental garden allow for studying different aspects of local adaptation. However, usually only one of these approaches is used. We applied both experimental approaches to study the role of spatial scale and soil conditions for local adaptation in the perennial herb Inula hirta. We reciprocally sowed seeds and transplanted juvenile plants among six field sites from two regions and, in the garden, among pots with soil from each field site. We recorded germination percentage, survival percentage, number of stems and plant height in all experiments. We also recorded above- and below-ground biomass, flowering percentage and the number of flower heads in the garden. No population-specific local adaptation was detected in germination, survival, flowering percentages or in the number of flower heads. At the regional scale in the field, however, the performance of local transplants was higher than the performance of foreign transplants by 10% and 7% in the two regions, respectively. Similarly, when grown in the garden in soil from the more basic and nutrient-poorer region, plant height and aboveground biomass of local transplants were higher than the corresponding values for foreign transplants by 31% and 112%, respectively. Congruent evidence for local adaptation from the juvenile-transplant experiments in field and garden suggests that soil conditions represent an important factor of local adaptation in I. hirta. Overall, our results show that both spatial scale and soil conditions play an important role for local adaptation in I. hirta. Moreover, we underline the importance of combining field and garden experiments to reveal factors affecting local adaptation in plants. KW - Dry grasslands KW - Fitness components KW - Genotype by environment KW - Habitat fragmentation KW - Home-site advantage KW - Natural selection KW - Plant traits KW - Reciprocal transplant Y1 - 2011 U6 - https://doi.org/10.1016/j.baae.2011.01.001 SN - 1439-1791 VL - 12 IS - 2 SP - 152 EP - 160 PB - Elsevier CY - Jena ER - TY - JOUR A1 - Nottebrock, Henning A1 - Esler, Karen J. A1 - Schurr, Frank Martin T1 - Effects of intraspecific and community density on the lifetime fecundity of long-lived shrubs JF - Perspectives in plant ecology, evolution and systematics N2 - Intra- and interspecific density dependence has profound consequences for plant population and community dynamics. In long-lived plants, however, lifetime patterns and mechanisms of density dependence are difficult to study. Here, we examine effects of intraspecific and community density on the lifetime fecundity of two long-lived shrub species from South African Fynbos: Protea repens (animal-pollinated, hermaphroditic) and Leucadendron rubrum (wind-pollinated, dioecious). Both species are serotinous, retaining seeds in cones until fire kills the mother plant. We measured lifetime fecundity as the product of cone number, proportion of cones that are not damaged by predation and seed set (fertile seeds per intact cone). Intraspecific and community densities were quantified by counting individuals of target species and all Proteaceae in small- and large-scale neighbourhoods (10 m and 50 m radius) around each focal individual. Additionally, we determined the age and size of focal individuals. We found that lifetime fecundity of the wind-pollinated L rubrum is density independent. In contrast, the lifetime fecundity of the animal-pollinated P. repens increases with large-scale intraspecific density and shows a hump-shaped relationship to large-scale community density. Community density has a hump-shaped effect on seed set (probably through partial absence of generalized pollinators at low and competition for pollinators at high densities) and negatively affects cone number per individual. For both species, plant age decreases seed set while increasing lifetime fecundity. The qualitative differences in the density dependence of lifetime fecundity may arise from differences between animal and wind pollination. In particular, interactions with generalized animal pollinators may cause community-level Allee effects with profound consequences for the future dynamics of long-lived plant populations and communities. KW - Competition KW - Community-level Allee effects KW - Facilitation KW - Fitness components KW - Interspecific interactions KW - Plant-animal interactions Y1 - 2013 U6 - https://doi.org/10.1016/j.ppees.2013.03.003 SN - 1433-8319 VL - 15 IS - 3 SP - 150 EP - 161 PB - Elsevier CY - Jena ER -