Your search keyword '"Griffin, John N."' showing total 10 results

1. Scale-dependent topographic complexity underpins abundance and spatial distribution of ecosystem engineers on natural and artificial structures

Author

Bauer, Franz, Knights, Antony M., Griffin, John N., Hanley, Mick E., Foggo, Andy, Brown, Austin, Jones, Emma, and Firth, Louise B.

Published

2024

2. Top ten priorities for global saltmarsh restoration, conservation and ecosystem service research

Author

Pétillon, Julien, McKinley, Emma, Alexander, Meghan, Adams, Janine B., Angelini, Christine, Balke, Thorsten, Griffin, John N., Bouma, Tjeerd, Hacker, Sally, He, Qiang, Hensel, Marc J.S., Ibáñez, Carles, Macreadie, Peter I., Martino, Simone, Sharps, Elwyn, Ballinger, Rhoda, de Battisti, Davide, Beaumont, Nicola, Burdon, Daryl, Daleo, Pedro, D'Alpaos, Andrea, Duggan-Edwards, Mollie, Garbutt, Angus, Jenkins, Stuart, Ladd, Cai J.T., Lewis, Heather, Mariotti, Giulio, McDermott, Osgur, Mills, Rachael, Möller, Iris, Nolte, Stefanie, Pagès, Jordi F., Silliman, Brian, Zhang, Liquan, and Skov, Martin W.

Published

2023

3. Topography-based modulation of environmental factors as a mechanism for intertidal microhabitat formation: A basis for marine ecological design.

Author

Bauer, Franz, Knights, Antony M., Hanley, Mick E., Griffin, John N., Foggo, Andy, Brown, Austin, and Firth, Louise B.

Subjects

ECOLOGICAL niche, INTERTIDAL organisms, PREDATION, TOPOGRAPHY, DETRITUS, HYDRODYNAMICS

Abstract

Topographic complexity is often considered to be closely associated with habitat complexity and niche diversity; however, complex topography per se does not imply habitat suitability. Rather, ecologically suitable habitats may emerge if topographic features interact with environmental factors and thereby alter their surrounding microenvironment to the benefit of local organisms (e.g., resource provisioning, stress mitigation). Topography may thus act as a key modulator of abiotic stressors and biotic pressures, particularly in environmentally challenging intertidal systems. Here, we review how topography can alter microhabitat conditions with respect to four resources required by intertidal organisms: a source of energy (light, suspended food particles, prey, detritus), water (hydration, buffering of light, temperature and hydrodynamics), shelter (temperature, wave exposure, predation), and habitat space (substratum area, propagule settlement, movement). We synthesize mechanisms and quantitative findings of how environmental factors can be altered through topography and suggest an organism-centered 'form-follows-ecological-function' approach to designing multifunctional marine infrastructure. [Display omitted] • Topography can shape micro-climate through interactions with environmental factors. • Topography-based niches can meet four ecological needs: food, water, shelter, space. • Eco-design may benefit from an organism-centric 'form-follows-function' approach. [ABSTRACT FROM AUTHOR]

Published

2024

4. Does relative abundance modify multiple predator effects?

Author

Griffin, John N., Toscano, Benjamin J., Griffen, Blaine D., and Silliman, Brian R.

Subjects

ECOLOGISTS, PREDATORY animals, SPECIFIC gravity, ANIMAL species, CRABS

Abstract

Copyright of Basic & Applied Ecology is the property of Urban & Fischer Verlag and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

5. The brown-world role of insectivores: Frogs reduce plant growth by suppressing detritivores in an alpine meadow.

Author

Wu, Xinwei, Zhang, Changbing, Griffin, John N., and Sun, Shucun

Subjects

INSECTIVORES (Mammals), FROGS, PLANT growth, MOUNTAIN meadows, HERBIVORES, PLANT biomass, PREDATORY animals

Abstract

Copyright of Basic & Applied Ecology is the property of Urban & Fischer Verlag and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2014

6. Expression of the guanine nucleotide exchange factor, RAPGEF5, during mouse and human embryogenesis.

Author

Alharatani, Reham, Griffin, John N., and Liu, Karen J.

Subjects

*GUANINE nucleotide exchange factors, *GASTRULATION, *GTPASE-activating protein, *CONGENITAL heart disease, *WNT signal transduction, *CELL adhesion, *CONGENITAL disorders

Abstract

Rap GTPases mediate fundamental cellular processes, including cell adhesion, migration and intracellular signal transduction. The subcellular activity of these GTPases is regulated by dedicated activators (guanine nucleotide exchange factors, GEFs) and deactivators (GTPase-activating proteins, GAPs). RAPGEF5 is a potent activator of Rap proteins and mutations in RAPGEF5 have been linked to both neurological disorders and congenital heart disease. In the frog model, Xenopus tropicalis , Rapgef5 is a critical regulator of the canonical Wnt signalling pathway and is required for normal gastrulation and correct establishment of the left-right body axis. However, requirements for RAPGEF5 in other developmental contexts, and in mammalian embryogenesis in particular, remain undefined. Here, we describe RAPGEF5 mRNA expression patterns during mouse (E9.5 – E16.5) and human (Carnegie stage 21) development, as an initial step towards better understanding its developmental functions. [ABSTRACT FROM AUTHOR]

Published

2019

7. RAPGEF5 Regulates Nuclear Translocation of β-Catenin.

Author

Griffin, John N., del Viso, Florencia, Duncan, Anna R., Robson, Andrew, Hwang, Woong, Kulkarni, Saurabh, Liu, Karen J., and Khokha, Mustafa K.

Subjects

*CATENINS, *CELL communication, *CONGENITAL heart disease, *GUANINE nucleotide exchange factors, *CANCER

Abstract

Summary Canonical Wnt signaling coordinates many critical aspects of embryonic development, while dysregulated Wnt signaling contributes to common diseases, including congenital malformations and cancer. The nuclear localization of β-catenin is the defining step in pathway activation. However, despite intensive investigation, the mechanisms regulating β-catenin nuclear transport remain undefined. In a patient with congenital heart disease and heterotaxy, a disorder of left-right patterning, we previously identified the guanine nucleotide exchange factor, RAPGEF5. Here, we demonstrate that RAPGEF5 regulates left-right patterning via Wnt signaling. In particular, RAPGEF5 regulates the nuclear translocation of β-catenin independently of both β-catenin cytoplasmic stabilization and the importin β1/Ran-mediated transport system. We propose a model whereby RAPGEF5 activates the nuclear GTPases, Rap1a/b, to facilitate the nuclear transport of β-catenin, defining a parallel nuclear transport pathway to Ran. Our results suggest new targets for modulating Wnt signaling in disease states. [ABSTRACT FROM AUTHOR]

Published

2018

8. Book review: The Encyclopedia of Tidepools and Rocky Shores

Author

Griffin, John N. and Silliman, Brian R.

Published

2009

9. A framework to study the context-dependent impacts of marine invasions

Author

Thomsen, Mads S., Wernberg, Thomas, Olden, Julian D., Griffin, John N., and Silliman, Brian R.

Subjects

*MARINE biological invasions, *INTRODUCED species, *ANIMAL species, *ENVIRONMENTAL impact analysis, *BIOTIC communities, *FIELD research, *META-analysis, *ECOLOGICAL impact

Abstract

Abstract: The ecological impacts of marine invasive species vary according to the spatial and temporal scale of analysis, thereby challenging the extraction of generalities about underlying mechanisms. Here, we applied a broad impact framework that addresses this scale-dependency, to test if general drivers of impacts can be identified and quantified from marine invasion experiments. This framework explains variability in impacts according to the unique (specific) and universal (general) attributes of the (1) invasive organism, (2) resident biota, (3) resource levels, and (4) abiotic conditions. In this framework, unique and universal attributes encompass the properties that are either ecologically relevant to only a few specific invasions (e.g. a unique toxin) or to most invasions (e.g. invader density, size, age or longevity), respectively. We reviewed 88 published marine invasion impact experiments, where 18 tested for effects of universal and 11 for unique attributes of the invasive organism (63 tested for presence–absence effects, where these attributes are confounded). A meta-analysis confirmed that the species identity and density (representing a unique and universal attribute, respectively) of the invader significantly predicted impacts. These attributes should, therefore, whenever possible, be treated as separate impact-modifiers. By contrast, very few experiments have tested if universal or unique attributes of the resident biota, the resource levels or the abiotic conditions modify invasion impact. This highlights a major research gap; quantitative syntheses cannot be undertaken until more factorial experiments have manipulated the invasive species and habitat-associated drivers in concert (with ≥2 treatments per test factor). In conclusion, to facilitate a broader understanding of marine invasion impacts, we advocate that universal and unique impact-components, whenever possible, are treated as separate test entities that should be examined for each of the four impact drivers. [Copyright &y& Elsevier]

Published

2011

10. Grazing reduces bee abundance and diversity in saltmarshes by suppressing flowering of key plant species.

Author

Davidson, Kate E., Fowler, Mike S., Skov, Martin W., Forman, Daniel, Alison, Jamie, Botham, Marc, Beaumont, Nicola, and Griffin, John N.

Subjects

*POLLINATION by bees, *FLOWERING of plants, *SALT marsh ecology, *GRAZING, *RANGE management, *PLANT species, *BEES, *HONEYBEES

Abstract

• Livestock grazing in saltmarshes reduces bee abundance and diversity. • Reductions are driven by decreased cover of two key food plants. • Increased plant diversity with grazing does not compensate for negative effects. • Negative effects are stronger at higher grazing intensity. • Ungrazed saltmarshes rank highly for bees compared to terrestrial habitats. Global declines in pollinator populations and associated services make it imperative to identify and sensitively manage valuable habitats. Coastal habitats such as saltmarshes can support extensive flowering meadows, but their importance for pollinators, and how this varies with land-use intensity, is poorly understood. We hypothesised that saltmarshes provide important bee foraging habitat, and that livestock grazing either suppresses or enhances its value by reducing the abundance - or increasing the diversity - of flowering plants. To test these hypotheses, we surveyed 11 saltmarshes in Wales (UK) under varying grazing management (long-term ungrazed, extensively grazed, intensively grazed) over three summers and investigated causal pathways linking grazing intensity with bee abundance and diversity using a series of linear mixed models. We also compared observed bee abundances to 11 common terrestrial habitats using national survey data. Grazing reduced bee abundance and richness via reductions in the flower cover of the two key food plants: sea aster Tripolium pannonicum and sea lavender Limonium spp. Grazing also increased flowering plant richness, but the positive effects of flower richness did not compensate for the negative effects of reduced flower cover on bees. Bee abundances were approximately halved in extensively grazed marshes (relative to ungrazed) and halved again in intensively grazed marshes. Saltmarsh flowers were primarily visited by honeybees Apis mellifera and bumblebees Bombus spp. in mid and late summer. Compared to other broad habitat types in Wales, ungrazed saltmarshes ranked highly for honeybees and bumblebees in July-August, but were relatively unimportant for solitary bees. Intensively grazed saltmarshes were amongst the least valuable habitats for all bee types. Under appropriate grazing management, saltmarshes provide a valuable and previously overlooked foraging habitat for bees. The strong effects of livestock grazing identified here are likely to extend geographically given that both livestock grazing and key grazing-sensitive plants are widespread in European saltmarshes. We recommend that long-term ungrazed saltmarshes are protected from grazing, and that grazing is maintained at extensive levels on grazed marshes. In this way, saltmarshes can provide forage for wild and managed bee populations and support ecosystem services. [ABSTRACT FROM AUTHOR]

Published

2020