Abstract
Patch dynamics of the Mediterranean slow-growing seagrass
Posidonia oceanica was studied in two shallow sites (3–10
m) of the Balearic Archipelago (Spain) through repeated censuses (1–2
year
−1). In the sheltered site of Es Port Bay (Cabrera Island), initial patch density (October 2001) was low: 0.05
patches
m
−2, and the patch size (number of shoots) distribution was bimodal: most of the patches had less than 6 shoots or between 20 and 50 shoots. Mean patch recruitment in Es Port Bay (0.006
±
0.002
patches
m
−2
year
−1) exceeded mean patch loss (0.001
±
0.001
patches
m
−2
year
−1), yielding positive net patch recruitment (0.004
±
0.003
patches
m
−2
year
−1) and a slightly increased patch density 3 years later (July 2004, 0.06
patches
m
−2). In the exposed site of S’Estanyol, the initial patch density was higher (1.38
patches
m
−2, August 2003), and patch size frequency decreased exponentially with size. Patch recruitment (0.26
patches
m
−2
year
−1) and loss (0.24
patches
m
−2
year
−1) were high, yielding a slightly increased patch density in the area 1 year later (October 2004, 1.40
patches
m
−2). Most recruited patches consisted of rooting vegetative fragments of 1–2 shoots. Seedling recruitment was observed in Summer 2004 at both sites. Episodic, seedling recruitment comprised 30% and 25% of total patch recruitment in Es Port Bay and S’Estanyol, respectively. Patch survival increased with patch size and no direct removal was observed among patches of 5 shoots or more. Most patches grew along the study, shifting patch distribution towards larger sizes. Within the size range studied (1–150 shoots), absolute shoot recruitment (shoots
year
−1) increased linearly with patch size (
R
2
=
0.64,
p
<
4
×
10
−5,
N
=
125), while specific shoot recruitment was constant (about 0.25
±
0.05
year
−1), although its variance was large for small patches. Given the slow growth rate and the high survival of patches with 5 or more shoots, even the low patch recruitment rates reported here could play a significant role in the colonisation process of
P. oceanica.