Your search keyword '"McMahon, Kathryn M."' showing total 10 results

1. Predictors of marine genetic structure in the Indo-Australian Archipelago

Author

Hernawan, Udhi E., Lavery, Paul S., Kendrick, Gary A., van Dijk, Kor-jent, Ulumuddin, Yaya I., Triandiza, Teddy, and McMahon, Kathryn M.

Published

2021

2. Should we sync? Seascape-level genetic and ecological factors determine seagrass flowering patterns

Author

Jahnke, Marlene, Pagès, Jordi F., Alcoverro, Teresa, Lavery, Paul S., McMahon, Kathryn M., and Procaccini, Gabriele

Published

2015

3. Global dataset on seagrass meadow structure, biomass and production.

Author

Strydom, Simone, McCallum, Roisin, Lafratta, Anna, Webster, Chanelle L., O'Dea, Caitlyn M., Said, Nicole E., Dunham, Natasha, Inostroza, Karina, Salinas, Cristian, Billinghurst, Samuel, Phelps, Charlie M., Campbell, Connor, Gorham, Connor, Bernasconi, Rachele, Frouws, Anna M., Werner, Axel, Vitelli, Federico, Puigcorbé, Viena, D'Cruz, Alexandra, and McMahon, Kathryn M.

Subjects

POSIDONIA, PANGAEA (Supercontinent), SEAGRASS restoration, BIOMASS production, SEAGRASSES, CLIMATE change mitigation, CLIMATE change, DATA libraries

Abstract

Seagrass meadows provide valuable socio-ecological ecosystem services, including a key role in climate change mitigation and adaption. Understanding the natural history of seagrass meadows across environmental gradients is crucial to deciphering the role of seagrasses in the global ocean. In this data collation, spatial and temporal patterns in seagrass meadow structure, biomass and production data are presented as a function of biotic and abiotic habitat characteristics. The biological traits compiled include measures of meadow structure (e.g. percent cover and shoot density), biomass (e.g. above-ground biomass) and production (e.g. shoot production). Categorical factors include bioregion, geotype (coastal or estuarine), genera and year of sampling. This dataset contains data extracted from peer-reviewed publications published between 1975 and 2020 based on a Web of Science search and includes 11 data variables across 12 seagrass genera. The dataset excludes data from mesocosm and field experiments, contains 14 271 data points extracted from 390 publications and is publicly available on the PANGAEA® data repository (10.1594/PANGAEA.929968; Strydom et al., 2021). The top five most studied genera are Zostera, Thalassia, Cymodocea, Halodule and Halophila (84 % of data), and the least studied genera are Phyllospadix, Amphibolis and Thalassodendron (2.3 % of data). The data hotspot bioregion is the Tropical Indo-Pacific (25 % of data) followed by the Tropical Atlantic (21 %), whereas data for the other four bioregions are evenly spread (ranging between 13 and 15 % of total data within each bioregion). From the data compiled, 57 % related to seagrass biomass and 33 % to seagrass structure, while the least number of data were related to seagrass production (11 % of data). This data collation can inform several research fields beyond seagrass ecology, such as the development of nature-based solutions for climate change mitigation, which include readership interested in blue carbon, engineering, fisheries, global change, conservation and policy. [ABSTRACT FROM AUTHOR]

Published

2023

4. Increased extent of waterfowl grazing lengthens the recovery time of a colonizing seagrass (Halophila ovalis) with implications for seagrass resilience.

Author

O'Dea, Caitlyn M., Lavery, Paul S., Webster, Chanelle L., and McMahon, Kathryn M.

Subjects

SEAGRASSES, GRAZING, CLIMATE change, ESTUARIES

Abstract

Herbivore distributions and abundance are shifting because of climate change, leading to intensified grazing pressure on foundation species such as seagrasses. This, combined with rapidly increasing magnitudes of change in estuarine ecosystems, may affect seagrass resilience. While the overall resilience of seagrasses is generally well-studied, the timeframes of recovery has received comparatively little attention, particularly in temperate estuaries. We investigated how the recovery time (RT) of seagrass is affected by simulated grazing in a southwestern Australian estuary. Whilst excluding swans, we simulated different grazing intensities (25, 50, 75, and 100% removal from 1 m2 plots) at four locations in the Swan-Canning Estuary, Western Australia during summer and tracked the recovery of seagrass over 3 months, using seagrass cover as the main measure of recovery.We found that seagrass recovered within 4--6 weeks from the lower grazing intensities (25 and 50%) and 7--19 weeks from the higher grazing intensities (75 and 100%) across the estuary. Increased grazing intensity led to not only longer recovery times (RTs), but also greater variability in the RT among experimental locations. The RT from the higher grazing intensities at one location in particular was more than double other locations. Seagrass recovery was through vegetative mechanisms and not through sexual reproduction. There was a significant grazing treatment effect on seagrass meadow characteristics, particularly belowground biomass which had not recovered 3 months following grazing. As the pressure of climate change on estuarine environments increases, these quantified RTs for seagrass provide a baseline for understanding grazing pressure as a singular disturbance. Future work can now examine how grazing and other potentially interacting pressures in our changing climate could impact seagrass recovery even further. [ABSTRACT FROM AUTHOR]

Published

2022

5. Global dataset on seagrass meadow structure, biomass, production and reproduction.

Author

Strydom, Simone, Webster, Chanelle L., O'Dea, Caitlyn M., Said, Nicole E., McCallum, Roisin, Inostroza, Karina, Salinas, Cristian, Billinghurst, Samuel, Lafratta, Anna, Phelps, Charlie M., Campbell, Connor, Gorham, Connor, Dunham, Natasha, Bernasconi, Rachele, Frouws, Anna M., Werner, Axel, Vitelli, Federico, Puigcorbé, Viena, D'Cruz, Alexandra, and McMahon, Kathryn M.

Subjects

SEAGRASSES, SEAGRASS restoration, CLIMATE change mitigation, BIOMASS, ZOSTERA, FLOWER seeds, ECOSYSTEM services

Abstract

Seagrass meadows provide valuable socio-ecological ecosystem services, including a key role in climate change mitigation and adaption. Understanding the natural history of seagrass meadows across environmental gradients is crucial to decipher the role of seagrasses in the global ocean. In this data collation, spatial and temporal patterns in seagrass meadow structure, biomass, production and reproduction data are presented as a function of biotic and abiotic habitat characteristics. The biological traits compiled include measures of meadow structure (e.g., percent cover and shoot density), biomass (e.g., above-ground biomass), production (e.g., shoot production), and reproduction effort (e.g., flowering intensity and seed bank density). Categorical factors include bioregion, geotype (coastal or estuarine), genera and year of sampling. This dataset contains data extracted from peer-reviewed publications published between 1975 and 2020 based on a Web of Science search, and includes 15 data variables across 12 seagrass genera. The top four most studied genera are Zostera, Thalassia, Halophila and Cymodocea (80% of data), and the least studied genera are Phyllospadix, Amphibolis and Thalassodendron (2.3% of data). The data hotspot bioregion is the Tropical Indo Pacific (25% of data), whereas data for the other five bioregions are evenly spread (ranging between 13 and 16% of total data within each bioregion). From the data compiled, 39% related to seagrass biomass, while the least number of data were related to seagrass production (10% of data). This data collation can inform several research fields beyond seagrass ecology, such as the development of nature-based solutions for climate change mitigation, which include readership interested in blue carbon, engineering, fisheries, global change, conservation and policy. [ABSTRACT FROM AUTHOR]

Published

2022

6. Population‐specific resilience of Halophila ovalis seagrass habitat to unseasonal rainfall, an extreme climate event in estuaries.

Author

Webster, Chanelle L., Kilminster, Kieryn L., Sánchez Alarcón, Marta, Bennett, Katherine, Strydom, Simone, McNamara, Sian, Lavery, Paul S., and McMahon, Kathryn M.

Subjects

SEAGRASS restoration, ESTUARIES, SEAGRASSES, GLOBAL analysis (Mathematics), ECOSYSTEMS, CLIMATE change, SALINITY, HABITATS

Abstract

Extreme climate events are predicted to alter estuarine salinity gradients exposing habitat‐forming species to more frequent salinity variations. The intensity and duration of these variations, rather than the mean salinity values ecosystems are exposed to, may be more important in influencing resilience but requires further investigation.Precipitation, including the frequency, intensity and timing of occurrence, is shifting due to climate change. A global analysis on the timing of rainfall in estuarine catchments was conducted. In 80% of the case studies, the maximum daily rainfall occurred in the dry season at least once over the 40‐year period and could be classified as an extreme event.We selected an estuary in southwestern Australia and investigated the effects of an extreme rainfall event in 2017 resulting in an excess discharge of freshwater on seagrass Halophila ovalis. Adapting an approach applied for marine heatwaves using salinity data, we quantified metrics and characterised the event along the estuarine gradient. We assessed seagrass resilience by calculating resistance times based on the comparisons of biomass and leaf density data prior to, and during the event, and recovery times through assessment against historical condition.Where salinity is historically more variable, reductions in biomass were lower (higher resistance via plasticity in salinity tolerance) and meadows recovered within 9–11 months. Where salinity is historically more stable, loss of biomass was greatest (low resistance) post‐event and recovery may exceed 22 months, and potentially due to the rapid decline in salinity (−3 PSU/day).As estuaries become more hydrologically variable, these metrics provide a baseline for retrospective and future comparisons. Our results suggest seagrass resilience to hyposalinity is population specific. This understanding enables more accurate predictions about ecological responses to climate change and identifies which populations may 'future proof' ecosystem resilience.Synthesis. Following an extreme rainfall event, we found seagrass populations that are exposed to variable salinities recovered while those from a stable salinity environment were unable to recover within the study time frame. These findings expand upon existing evidence, derived primarily from other ecosystems, that show new sources of resilience may be uncovered by accounting for between‐population variation. [ABSTRACT FROM AUTHOR]

Published

2021

7. Short-term Responses of Posidonia australis to Changes in Light Quality.

Author

Strydom, Simone, McMahon, Kathryn M., Kendrick, Gary A., Statton, John, and Lavery, Paul S.

Subjects

SEAGRASSES, RANGELANDS

Abstract

Seagrass meadows are highly productive ecosystems that provide ecosystem services to the coastal zone but are declining globally, particularly due to anthropogenic activities that reduce the quantity of light reaching seagrasses, such as dredging, river discharge and eutrophication. Light quality (the spectral composition of the light) is also altered by these anthropogenic stressors as the differential attenuation of wavelengths of light is caused by materials within the water column. This study addressed the effect of altered light quality on different life-history stages of the seagrass Posidonia australis, a persistent, habitat-forming species in Australia. Aquarium-based experiments were conducted to determine how adult shoots and seedlings respond to blue (peak λ= 451 nm); green (peak λ = 522 nm); yellow (peak λ = 596 nm) and red (peak λ= 673 nm) wavelengths with a control of full-spectrum light (λ = 400 - 700 nm, at 200 μmol photons m-2 s-1). Posidonia australis adults did not respond to changes in light quality relative to full-spectrum light, demonstrating a capacity to obtain enough photons from a range of wavelengths across the visible spectrum to maintain short-term growth at high irradiances. Posidonia australis seedlings (<4 months old) grown in blue light showed a significant increase in xanthophyll concentrations when compared to plants grown in full-spectrum, demonstrating a pigment acclimation response to blue light. These results differed significantly from negative responses to changes in light quality recently described for Halophila ovalis, a colonizing seagrass species. Persistent seagrasses such as P. australis, appear to be better at tolerating short-term changes in light quality compared to colonizing species when sufficient PPFD is present. [ABSTRACT FROM AUTHOR]

Published

2018

8. Disturbance Is an Important Driver of Clonal Richness in Tropical Seagrasses.

Author

McMahon, Kathryn M., Evans, Richard D., van Dijk, Kor-jent, Hernawan, Udhi, Kendrick, Gary A., Lavery, Paul S., Lowe, Ryan, Puotinen, Marji, and Waycott, Michelle

Subjects

SEAGRASSES, PLANT species diversity, TROPICAL plants

Abstract

Clonality is common in many aquatic plant species, including seagrasses, where populations are maintained through a combination of asexual and sexual reproduction. One common measure used to describe the clonal structure of populations is clonal richness. Clonal richness is strongly dependent on the biological characteristics of the species, and how these interact with the environment but can also reflect evolutionary scale processes especially at the edge of species ranges. However, little is known about the spatial patterns and drivers of clonal richness in tropical seagrasses. This study assessed the spatial patterns of clonal richness in meadows of three tropical seagrass species, Thalassia hemprichii, Halodule uninervis, and Halophila ovalis, spanning a range of life-history strategies and spatial scales (2.5-4,711 km) in Indonesia and NW Australia. We further investigated the drivers of clonal richness using general additive mixed models for two of the species, H. uninervis and H. ovalis, over 8° latitude. No significant patterns were observed in clonal richness with latitude, yet disturbance combined with sea surface temperature strongly predicted spatial patterns of clonal richness. Sites with a high probability of cyclone disturbance had low clonal richness, whereas an intermediate probability of cyclone disturbance and the presence of dugong grazing combined with higher sea surface temperatures resulted in higher levels of clonal richness. We propose potential mechanisms for these patterns related to the recruitment and mortality rates of individuals as well as reproductive effort. Under a changing climate, increased severity of tropical cyclones and the decline in populations of mega-grazers have the potential to reduce clonal richness leading to less genetically diverse populations. [ABSTRACT FROM AUTHOR]

Published

2017

9. Feeding Ecology of Green Turtles (Chelonia mydas) from Shoalwater Bay, Australia.

Author

Arthur, Karen E., McMahon, Kathryn M., Limpus, Colin J., and Dennison, William C.

Abstract

The article discusses a study on the feeding ecology of green turtles from Shoalwater Bay, Queensland. A random sub-set of turtles was selected for diet analysis and stomach flush technique was used to obtain diet sample. The study asserts that the volume of seagrass consumed by turtles means that in terms of tissue assimilation, seagrass is the most important source of carbon (C) and nitrogen, although opportunistic foraging on mangrove leaves is likely to provide a food source in C and with a faster release of nutrients than seagrass.

Published

2009

10. FIVE IMPORTANT OSHA ISSUES TO MONITOR IN 2014.

Author

Conn, Eric J., McMahon, Kathryn M., Strainis-Walker, Amanda R., Cosentino, Casey M., Ramchandani, Alka N., and Smith, Lindsay A.

Subjects

CHEMICAL labeling, WORK environment, INDUSTRIAL safety, PATIENT Protection & Affordable Care Act, ACCIDENTS

Abstract

The article offers information on five OSHA-related developments which would take shape during 2014. The rulemaking activity would gain momentum on initiatives including on combustible dust, injury and illness prevention program. It would focus on temporary worker safety, provide affordable coverage and outreach materials. The HazCom standard would demand employers to use a standardized system of labeling of chemical containers. There could be amendment in heat illness prevention citation.

Published

2014