TY  - JOUR
A1  - Bareither, Nils
A1  - Scheffel, Andre
A1  - Metz, Johannes
T1  - Distribution of polyploid plants in the common annual Brachypodium distachyon (s.l.) in Israel is not linearly correlated with aridity
JF  - Israel Journal of Plant Sciences
N2  - The ecological benefits of polyploidy are intensely debated. Some authors argue that plants with duplicated chromosome sets (polyploids) are more stress- resistant and superior colonizers and may thus outnumber their low ploidy conspecifics in more extreme habitats. Brachypodium distachyon (sensu lato), for example, a common annual grass in Israel and the entire Mediterranean basin, comprises three cytotypes of differing chromosome numbers that were recently proposed as distinct species. It was suggested that increased aridity increases the occurrence of its polyploid cytotype. Here, we tested at two spatial scales whether polyploid plants of B. distachyon s. l. are more frequently found in drier habitats in Israel. We collected a total of 430 specimens (i) along a largescale climatic gradient with 15 thoroughly selected sites (spanning 114- 954 mm annual rainfall), and (ii) from corresponding Northern (more mesic) and Southern (more arid) hill slopes to assess the micro- climatic difference between contrasting exposures. Cytotypes were then determined via flow cytometry. Polyploid plants comprised 90% of all specimens and their proportion ranged between 0% and 100% per site. However, this proportion was not correlated with aridity along the large- scale gradient, nor were polyploids more frequently found on Southern exposures. Our results show for both spatial scales that increasing aridity is not the principal driver for the distribution of polyploids in B. distachyon s. l. in Israel. Notably, though, diploid plants were restricted essentially to four intermediate sites, while polyploids dominated the most arid and the most mesic sites. This, to some degree, clustered pattern suggests that the distribution of cytotypes is not entirely random and calls for future studies to assess further potential drivers.
KW  - Aridity
KW  - Brachypodium distachyon
KW  - Brachypodium hybridum
KW  - Brachypodium stacei
KW  - cytotype
KW  - exposition
KW  - Israel
KW  - Mediterranean grass species
KW  - polyploidization
KW  - rainfall gradient
KW  - slope aspect
Y1  - 2017
SN  - 0792-9978
SN  - 2223-8980
VL  - 64
SP  - 83
EP  - 92
PB  - Taylor & Francis
CY  - London
ER  - 
TY  - JOUR
A1  - Metz, Johannes
A1  - Tielboerger, Katja
T1  - Spatial and temporal aridity gradients provide poor proxies for plant-plant interactions under climate change: a large-scale experiment
JF  - Functional ecology : an official journal of the British Ecological Society
N2  - 1. Plant-plant interactions may critically modify the impact of climate change on plant communities. However, the magnitude and even direction of potential future interactions remains highly debated, especially for water-limited ecosystems. Predictions range from increasing facilitation to increasing competition with future aridification. 2. The different methodologies used for assessing plant-plant interactions under changing environmental conditions may affect the outcome but they are not equally represented in the literature. Mechanistic experimental manipulations are rare compared with correlative approaches that infer future patterns from current observations along spatial climatic gradients. 3. Here, we utilize a unique climatic gradient in combination with a large-scale, long-term experiment to test whether predictions about plant-plant interactions yield similar results when using experimental manipulations, spatial gradients or temporal variation. We assessed shrub-annual interactions in three different sites along a natural rainfall gradient (spatial) during 9 years of varying rainfall (temporal) and 8 years of dry and wet manipulations of ambient rainfall (experimental) that closely mimicked regional climate scenarios. 4. The results were fundamentally different among all three approaches. Experimental water manipulations hardly altered shrub effects on annual plant communities for the assessed fitness parameters biomass and survival. Along the spatial gradient, shrub effects shifted from clearly negative to mildly facilitative towards drier sites, whereas temporal variation showed the opposite trend: more negative shrub effects in drier years. 5. Based on our experimental approach, we conclude that shrub-annual interaction will remain similar under climate change. In contrast, the commonly applied space-for-time approach based on spatial gradients would have suggested increasing facilitative effects with climate change. We discuss potential mechanisms governing the differences among the three approaches. 6. Our study highlights the critical importance of long-term experimental manipulations for evaluating climate change impacts. Correlative approaches, for example along spatial or temporal gradients, may be misleading and overestimate the response of plant-plant interactions to climate change.
KW  - annual plant communities
KW  - climate manipulation
KW  - competition
KW  - facilitation
KW  - Mediterranean shrubland
KW  - nurse plant
KW  - rainfall gradient
KW  - Sarcopoterium spinosum
KW  - semi-arid
KW  - stress-gradient hypothesis
Y1  - 2016
U6  - https://doi.org/10.1111/1365-2435.12599
SN  - 0269-8463
SN  - 1365-2435
VL  - 30
SP  - 20
EP  - 29
PB  - Wiley-Blackwell
CY  - Hoboken
ER  -