Simultaneous Determination of Size and Position of Silver and Gold Nanoparticles in Onion Cells using Laser Ablation-ICP-MS.

Size distribution and mapping analyses of Ag and Au nanoparticles (NPs) have been made using an ICP-MS combined with laser ablation sampling technique (LA-ICP-MS). With the femtosecond laser (Ti:S laser) ablation system, the measured size distribution was modified to be smaller, whereas this disintegration could be reduced when the nanosecond laser (ArF Excimer laser) ablation was employed. This suggests that both the size and position of the NPs can be defined by the nanosecond LA-ICP-MS technique. More importantly, based on the peak-height analyses (PHA) of the measured signal intensity profiles, the present form of the analytes, whether particulate or ionic form, could be defined. This is very important to investigate the transport of the NPs within biological samples. To demonstrate the unique feature of the technique, imaging analyses of Ag and Au NPs, together with distribution analysis of the ionic form, were conducted on onion cells, prepared through dosing experiments of the Ag and Au NPs. There were clear differences in both the increasing rates of the numbers of NPs and the concentration range of the ionic form between the Ag and Au. The data obtained here demonstrate clearly that the LA-ICP-MS technique can become a major analytical tool to obtain both the size distribution and position of NPs from tissue samples.

Altered juvenile fish communities associated with invasive Halophila stipulacea seagrass habitats in the U.S. Virgin Islands.

Caribbean seagrass habitats provide food and protection for reef-associated juvenile fish. The invasive seagrass Halophila stipulacea is rapidly altering these seascapes. Since its arrival in the Caribbean in 2002, H. stipulacea has colonized and displaced native seagrasses, but the function of this invasive seagrass as a juvenile fish habitat remains unknown. To compare diversity, community structure, and abundance of juvenile fish between H. stipulacea and native seagrass beds, fish traps were deployed in four nearshore bays around St. Thomas, U.S. Virgin Islands. Traps were deployed in Frenchman, Lindbergh, and Sprat Bays for 24 h intervals in patches of bare sand, patches of H. stipulacea and patches of the native Caribbean seagrasses Thalassia testudinum and Syringodium filiforme. Traps were then deployed in Brewers Bay for 12 h intervals in stands of H. stipulacea and S. filiforme. Relative and total abundances of juvenile fish, identified at least to family, were compared across treatment habitats for each trap deployment period. The catch from H. stipulacea, compared to native seagrasses, comprised a greater abundance of nocturnal carnivores Lutjanus synagris (family Lutjanidae) and Haemulon flavolineatum (family Haemulidae). Additionally, the herbivore species Sparisoma aurofrenatum (family Labridae) and Acanthurus bahianus (family Acanthuridae) and the diurnal carnivore species Pseudopeneus maculatus (family Mullidae) were relatively scarce in H. stipulacea. The catch from sand was much smaller, compared to vegetated habitats, and comprised only L. synagris, H. flavolineatum, and H. aurolineatum. These results provide evidence of reduced family diversity and altered juvenile fish assemblages in H. stipulacea, driven by an abundance of some nocturnal carnivores and scarcity of herbivores and diurnal carnivores. The findings from the present work underpin the need for further investigation and mitigation of this invasion, particularly where H. stipulacea is driving seascape-alterations of key juvenile fish habitats.