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Publications by Christopher D.G. Harley

Caprellid Amphipods (Caprella Spp.) Are Vulnerable to Both Physiological and Habitat-Mediated Effects of Ocean Acidification

PeerJ

English

Evaluation of Effective Shore Level as a Method of Characterizing Intertidal Wave Exposure Regimes

Limnology and Oceanography: Methods

Ocean Engineering

2006

English

Related publications

Figure 2: Response of Caprellid Heart Rate to Ocean Acidification.

English

Community Structure of Caprellid Amphipods (Crustacea) on Seagrasses in Otsuchi Bay, Northeastern Japan, With Reference to the Association of Caprella Japonica (Schurin) and Phyllospadix Iwatensis Makino

Fisheries Science

Aquatic Science

1997

English

Ocean Acidification Impacts on Coastal Ecosystem Services Due to Habitat Degradation

Emerging Topics in Life Sciences

2019

English

A New Caprellid Amphipoda Caprella Nagaoi N. Sp. From Akkeshi Bay, Hokkaido

Nippon Suisan Gakkaishi

Aquatic Science

1970

English

Ocean Acidification Can Mediate Biodiversity Shifts by Changing Biogenic Habitat

Nature Climate Change

Social Sciences

Environmental Science

2016

English

The Physiological Response of the Deep-Sea Coral Solenosmilia Variabilis to Ocean Acidification

English

Transgenerational Exposure of North Atlantic Bivalves to Ocean Acidification Renders Offspring More Vulnerable to Low pH and Additional Stressors

Scientific Reports

Multidisciplinary

2017

English

Societal Causes Of, and Responses To, Ocean Acidification

Ambio

Development

Ecology

Environmental Chemistry

English

Ocean Acidification Increases the Sensitivity and Variability of Physiological Responses of an Intertidal Limpet to Thermal Stress

2017

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Christopher D.G. Harley

Caprellid Amphipods (Caprella Spp.) Are Vulnerable to Both Physiological and Habitat-Mediated Effects of Ocean Acidification

Evaluation of Effective Shore Level as a Method of Characterizing Intertidal Wave Exposure Regimes

Related publications

Figure 2: Response of Caprellid Heart Rate to Ocean Acidification.

Community Structure of Caprellid Amphipods (Crustacea) on Seagrasses in Otsuchi Bay, Northeastern Japan, With Reference to the Association of Caprella Japonica (Schurin) and Phyllospadix Iwatensis Makino

Ocean Acidification Impacts on Coastal Ecosystem Services Due to Habitat Degradation

A New Caprellid Amphipoda Caprella Nagaoi N. Sp. From Akkeshi Bay, Hokkaido

Ocean Acidification Can Mediate Biodiversity Shifts by Changing Biogenic Habitat

The Physiological Response of the Deep-Sea Coral Solenosmilia Variabilis to Ocean Acidification

Transgenerational Exposure of North Atlantic Bivalves to Ocean Acidification Renders Offspring More Vulnerable to Low pH and Additional Stressors

Societal Causes Of, and Responses To, Ocean Acidification

Ocean Acidification Increases the Sensitivity and Variability of Physiological Responses of an Intertidal Limpet to Thermal Stress