Islands in the Pacific: Settings, Distribution and Classification

Nunn, Patrick D; Kumar, Lalit; McLean, Roger; Eliot, Ian

doi:10.1007/978-3-030-32878-8_2

Author(s)

Nunn, Patrick D

Kumar, Lalit

McLean, Roger

Eliot, Ian

Publication Date

2020-02-01

Abstract

Oceanic islands have a history of being misunderstood by outsiders, commonly marginalized in global synthesis and planning, their considerable diversity often understated. To capture and explain the diversity of islands in the Pacific, a classification is developing using elevation and lithology (rock type) as the highest level criteria. For each of the 1779 islands, defined as ocean-bounded landmasses ≥1 ha (0.01 km2) in area, data were collected on locations and shapes, areas, names, elevations and lithologies. Eight island types were identified—volcanic high islands (≥30 amsl, ≥80% igneous); volcanic low islands (<30 amsl, ≥80% igneous); limestone high islands (≥30 amsl, ≥80% calcareous); limestone low islands (<30 amsl, ≥80% calcareous); reef islands (≥80% unconsolidated sediments); composite high islands (≥30 amsl, <80% igneous, <80% calcareous); composite low islands (<30 amsl, <80% igneous, <80% calcareous); continental (≥80% continental rocks). The broad distribution of each island type in the Pacific can be explained by its geological history. In addition, this classification could be used as an objective basis for assessing island vulnerability to external stressors like climate change or pollution as well as a tool for national/regional planning.

Citation

Climate Change and Impacts in the Pacific, p. 33-170

ISBN

9783030328788

9783030328771

Link

https://hdl.handle.net/1959.11/30046

Language

en

Publisher

Springer

Series

Springer Climate

Edition

1

Title

Islands in the Pacific: Settings, Distribution and Classification

Type of document

Book Chapter

Entity Type

Publication

Author(s)	Nunn, Patrick D Kumar, Lalit McLean, Roger Eliot, Ian
Publication Date	2020-02-01
Abstract	Oceanic islands have a history of being misunderstood by outsiders, commonly marginalized in global synthesis and planning, their considerable diversity often understated. To capture and explain the diversity of islands in the Pacific, a classification is developing using elevation and lithology (rock type) as the highest level criteria. For each of the 1779 islands, defined as ocean-bounded landmasses ≥1 ha (0.01 km2) in area, data were collected on locations and shapes, areas, names, elevations and lithologies. Eight island types were identified—volcanic high islands (≥30 amsl, ≥80% igneous); volcanic low islands (<30 amsl, ≥80% igneous); limestone high islands (≥30 amsl, ≥80% calcareous); limestone low islands (<30 amsl, ≥80% calcareous); reef islands (≥80% unconsolidated sediments); composite high islands (≥30 amsl, <80% igneous, <80% calcareous); composite low islands (<30 amsl, <80% igneous, <80% calcareous); continental (≥80% continental rocks). The broad distribution of each island type in the Pacific can be explained by its geological history. In addition, this classification could be used as an objective basis for assessing island vulnerability to external stressors like climate change or pollution as well as a tool for national/regional planning.
Citation	Climate Change and Impacts in the Pacific, p. 33-170
ISBN	9783030328788 9783030328771
Link	https://hdl.handle.net/1959.11/30046
Language	en
Publisher	Springer
Series	Springer Climate
Edition	1
Title	Islands in the Pacific: Settings, Distribution and Classification
Type of document	Book Chapter
Entity Type	Publication

Islands in the Pacific: Settings, Distribution and Classification

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