Abstract
The seagrass Posidonia oceanica is considered one of the oldest and largest living organisms on Earth. Notwithstanding, given the difficulty of monitoring its fruits and seeds in the field, the development of P. oceanica during its sexual recruitment is not completely understood. We studied the stages of development of P. oceanica seeds from their dispersion in the fruit interior to their settlement in sediment through histological, ultrastructural and mesocosm experiments. P. oceanica sexual recruitment can be divided into three main stages that focus on maximising photosynthesis and anchoring the seedlings to the sediment. In the first stage (fruit dispersion), seeds perform photosynthesis while being transported inside the fruit along the sea surface. In the second stage (seed adhesion), seeds develop adhesive microscopic hairs that cover the primary and secondary roots and favour seed adhesion to the substrate. In the last stage (seedling anchorage), roots attach the seedlings to the substrate by orienting them towards the direction of light to maximise photosynthesis. The adaptations observed in P. oceanica are similar to those in other seagrasses with non-dormant seeds and fruits with membranous pericarps, such as Thalassia sp. and Enhalus sp. These common strategies suggest a convergent evolution in such seagrasses in terms of sexual recruitment. Understanding the sexual recruitment of habitat-forming species such as seagrasses is necessary to adequately manage the ecosystems that they inhabit.
Highlights
IntroductionSeagrasses are formed by a polyphyletic group of monocotyledons (order Alismatales), which recolonised marine environments 80 million years ago [1]
Seagrasses are formed by a polyphyletic group of monocotyledons, which recolonised marine environments 80 million years ago [1]
The histological analyses showed that the P. oceanica fruit pericarps displayed the typical fruit covering structure formed by an initial layer of epidermis and a subsequent layer of mesophyll (Fig 2A)
Summary
Seagrasses are formed by a polyphyletic group of monocotyledons (order Alismatales), which recolonised marine environments 80 million years ago [1]. Seagrasses are habitat-forming species because they are a source of food and shelter for a wide variety of fish and invertebrates, and they perform relevant ecosystems services [2,3]. Despite their importance, seagrass populations are currently threatened by a variety of anthropogenic stressors [4,5]. By forming new individuals, seagrasses increase their genetic diversity and their ability to colonise new areas and to adapt to environmental changes [9,10,11,12,13].
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