TY  - JOUR
A1  - Schittko, Conrad
A1  - Bernard-Verdier, Maud
A1  - Heger, Tina
A1  - Buchholz, Sascha
A1  - Kowarik, Ingo
A1  - von der Lippe, Moritz
A1  - Seitz, Birgit
A1  - Joshi, Jasmin Radha
A1  - Jeschke, Jonathan M.
T1  - A multidimensional framework for measuring biotic novelty: How novel is a community?
JF  - Global Change Biology
N2  - Anthropogenic changes in climate, land use, and disturbance regimes, as well as introductions of non-native species can lead to the transformation of many ecosystems. The resulting novel ecosystems are usually characterized by species assemblages that have not occurred previously in a given area. Quantifying the ecological novelty of communities (i.e., biotic novelty) would enhance the understanding of environmental change. However, quantification remains challenging since current novelty metrics, such as the number and/or proportion of non-native species in a community, fall short of considering both functional and evolutionary aspects of biotic novelty. Here, we propose the Biotic Novelty Index (BNI), an intuitive and flexible multidimensional measure that combines (a) functional differences between native and non-native introduced species with (b) temporal dynamics of species introductions. We show that the BNI is an additive partition of Rao's quadratic entropy, capturing the novel interaction component of the community's functional diversity. Simulations show that the index varies predictably with the relative amount of functional novelty added by recently arrived species, and they illustrate the need to provide an additional standardized version of the index. We present a detailed R code and two applications of the BNI by (a) measuring changes of biotic novelty of dry grassland plant communities along an urbanization gradient in a metropolitan region and (b) determining the biotic novelty of plant species assemblages at a national scale. The results illustrate the applicability of the index across scales and its flexibility in the use of data of different quality. Both case studies revealed strong connections between biotic novelty and increasing urbanization, a measure of abiotic novelty. We conclude that the BNI framework may help building a basis for better understanding the ecological and evolutionary consequences of global change.
KW  - alien species
KW  - biological invasions
KW  - coexistence
KW  - ecological novelty
KW  - functional diversity
KW  - novel ecosystems
KW  - novel species
KW  - standard metrics
Y1  - 2019
VL  - 26
IS  - 8
PB  - John Wiley & Sons, Inc.
CY  - New Jersey
ER  - 
TY  - GEN
A1  - Schittko, Conrad
A1  - Bernard-Verdier, Maud
A1  - Heger, Tina
A1  - Buchholz, Sascha
A1  - Kowarik, Ingo
A1  - von der Lippe, Moritz
A1  - Seitz, Birgit
A1  - Joshi, Jasmin Radha
A1  - Jeschke, Jonathan M.
T1  - A multidimensional framework for measuring biotic novelty: How novel is a community?
T2  - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Anthropogenic changes in climate, land use, and disturbance regimes, as well as introductions of non-native species can lead to the transformation of many ecosystems. The resulting novel ecosystems are usually characterized by species assemblages that have not occurred previously in a given area. Quantifying the ecological novelty of communities (i.e., biotic novelty) would enhance the understanding of environmental change. However, quantification remains challenging since current novelty metrics, such as the number and/or proportion of non-native species in a community, fall short of considering both functional and evolutionary aspects of biotic novelty. Here, we propose the Biotic Novelty Index (BNI), an intuitive and flexible multidimensional measure that combines (a) functional differences between native and non-native introduced species with (b) temporal dynamics of species introductions. We show that the BNI is an additive partition of Rao's quadratic entropy, capturing the novel interaction component of the community's functional diversity. Simulations show that the index varies predictably with the relative amount of functional novelty added by recently arrived species, and they illustrate the need to provide an additional standardized version of the index. We present a detailed R code and two applications of the BNI by (a) measuring changes of biotic novelty of dry grassland plant communities along an urbanization gradient in a metropolitan region and (b) determining the biotic novelty of plant species assemblages at a national scale. The results illustrate the applicability of the index across scales and its flexibility in the use of data of different quality. Both case studies revealed strong connections between biotic novelty and increasing urbanization, a measure of abiotic novelty. We conclude that the BNI framework may help building a basis for better understanding the ecological and evolutionary consequences of global change.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1209 
KW  - alien species
KW  - biological invasions
KW  - coexistence
KW  - ecological novelty
KW  - functional diversity
KW  - novel ecosystems
KW  - novel species
KW  - standard metrics
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-525657
SN  - 1866-8372
IS  - 8
ER  - 
TY  - JOUR
A1  - Herden, Jasmin
A1  - Eckert, Silvia
A1  - Stift, Marc
A1  - Joshi, Jasmin Radha
A1  - van Kleunen, Mark
T1  - No evidence for local adaptation and an epigenetic underpinning in native and non-native ruderal plant species in Germany
JF  - Ecology and evolution
N2  - Many invasive species have rapidly adapted to different environments in their new ranges. This is surprising, as colonization is usually associated with reduced genetic variation. Heritable phenotypic variation with an epigenetic basis may explain this paradox. Here, we assessed the contribution of DNA methylation to local adaptation in native and naturalized non-native ruderal plant species in Germany. We reciprocally transplanted offspring from natural populations of seven native and five non-native plant species between the Konstanz region in the south and the Potsdam region in the north of Germany. Before the transplant, half of the seeds were treated with the demethylation agent zebularine. We recorded survival, flowering probability, and biomass production as fitness estimates. Contrary to our expectations, we found little evidence for local adaptation, both among the native and among the non-native plant species. Zebularine treatment had mostly negative effects on overall plant performance, regardless of whether plants were local or not, and regardless of whether they were native or non-native. Synthesis. We conclude that local adaptation, at least at the scale of our study, plays no major role in the success of non-native and native ruderal plants. Consequently, we found no evidence yet for an epigenetic basis of local adaptation.
KW  - biological invasions
KW  - epigenetics
KW  - local adaptation
KW  - reciprocal transplant experiment
KW  - ruderal plant species
KW  - zebularine
Y1  - 2019
U6  - https://doi.org/10.1002/ece3.5325
SN  - 2045-7758
VL  - 9
IS  - 17
SP  - 9412
EP  - 9426
PB  - Wiley
CY  - Hoboken
ER  -