1. Seedling growth of a native ( Ampelodesmos mauritanicus ) and an exotic ( Pennisetum setaceum ) grass
- Author
-
Marcello Militello, Tommaso La Mantia, G. Gugliuzza, Emilio Badalamenti, Badalamenti, E, Militello, M, La Mantia, T, and Gugliuzza, G
- Subjects
0106 biological sciences ,Settore AGR/05 - Assestamento Forestale E Selvicoltura ,Perennial plant ,biology ,Ecology ,Pennisetum setaceum ,Sowing ,Ampelodesmos ,Introduced species ,biology.organism_classification ,Alien invasive plants Mediterranean grasslands Relative growth rate Fountain grass ,010603 evolutionary biology ,01 natural sciences ,Seedling ,Shoot ,Relative growth rate ,Ecology, Evolution, Behavior and Systematics ,010606 plant biology & botany ,Nature and Landscape Conservation - Abstract
Scarce information is available on the biological reasons why a small subset of introduced species can effectively establish within novel ecosystems. A comparison of early growth traits can help to explain the better performance of alien invasive species versus native co-occurring species. In one year-long experiment, we compared the early life stages of Ampelodesmos mauritanicus (Poir.) Dur. & Schinz (Amp), a native perennial Mediterranean grass, and Pennisetum setaceum (Forssk.) Chiov (Penn), an emerging invader grass in sub-arid and Mediterranean-climate areas. The Penn seedlings grew significantly faster and were approximately 2.5 times taller than the Amp seedlings, reaching a final average height of 90 cm. The shoot and root dry masses of the Penn seedlings were, respectively, more than 14 times and 4 times higher than those of the Amp seedlings. As a consequence, the shoot:root ratio was significantly higher in Penn, which resulted in a greater allocation of resources to the photosynthetic organs. Penn showed a more rapid life cycle compared with Amp. Penn produced seeds 9 months after sowing while no spikelet was produced by Amp until the end of the experiment. As a consequence, Penn may gain a reproductive advantage due to rapid seed dissemination. Ultimately, a suite of peculiar early growth traits makes Penn an aggressive competitor against Amp, which is an important floristic element of native Mediterranean grasslands. Penn seems better suited than Amp in colonizing frequently disturbed sites with fluctuating resource availability or irregular rainfall distribution and Penn is gradually replacing Amp.
- Published
- 2016