The lunar nodal cycle controls mangrove canopy cover on the Australian continent

Neil Saintilan; Leo Lymburner; Li Wen; Ivan D. Haigh; Emma Ai; Jeffrey J. Kelleway; Kerrylee Rogers; Tien Dat Pham; Richard Lucas

doi:10.1126/sciadv.abo6602

The lunar nodal cycle controls mangrove canopy cover on the Australian continent

Neil Saintilan, Leo Lymburner, Li Wen, Ivan D. Haigh, Emma Ai, Jeffrey J. Kelleway, Kerrylee Rogers, Tien Dat Pham, Richard Lucas

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Abstract

Long-phase (interannual) tidal cycles have been shown to influence coastal flooding and sedimentation, but their role in shaping the extent and condition of tidal wetlands has received little attention. Here, we show that the 18.61-year lunar nodal cycle, popularly termed the "lunar wobble," is a dominant control over the expansion and contraction of mangrove canopy cover over much of the Australian continent. Furthermore, the contrasting phasing of the 18.61-year lunar nodal cycle between diurnal and semidiurnal tidal settings has mediated the severity of drought impacts in northern bioregions. Long-phase tidal cycles regulate maximum tide heights, are an important control over mangrove canopy cover, and may influence mangrove ecosystem services including forest productivity and carbon sequestration at regional scales.

Original language	English
Article number	eabo6602
Number of pages	11
Journal	Science Advances
Volume	8
DOIs	https://doi.org/10.1126/sciadv.abo6602
Publication status	Published - 16 Sept 2022
Externally published	Yes

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title = "The lunar nodal cycle controls mangrove canopy cover on the Australian continent",

abstract = "Long-phase (interannual) tidal cycles have been shown to influence coastal flooding and sedimentation, but their role in shaping the extent and condition of tidal wetlands has received little attention. Here, we show that the 18.61-year lunar nodal cycle, popularly termed the {"}lunar wobble,{"} is a dominant control over the expansion and contraction of mangrove canopy cover over much of the Australian continent. Furthermore, the contrasting phasing of the 18.61-year lunar nodal cycle between diurnal and semidiurnal tidal settings has mediated the severity of drought impacts in northern bioregions. Long-phase tidal cycles regulate maximum tide heights, are an important control over mangrove canopy cover, and may influence mangrove ecosystem services including forest productivity and carbon sequestration at regional scales.",

author = "Neil Saintilan and Leo Lymburner and Li Wen and Haigh, {Ivan D.} and Emma Ai and Kelleway, {Jeffrey J.} and Kerrylee Rogers and Pham, {Tien Dat} and Richard Lucas",

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T1 - The lunar nodal cycle controls mangrove canopy cover on the Australian continent

AU - Saintilan, Neil

AU - Lymburner, Leo

AU - Wen, Li

AU - Haigh, Ivan D.

AU - Ai, Emma

AU - Kelleway, Jeffrey J.

AU - Rogers, Kerrylee

AU - Pham, Tien Dat

AU - Lucas, Richard

PY - 2022/9/16

Y1 - 2022/9/16

N2 - Long-phase (interannual) tidal cycles have been shown to influence coastal flooding and sedimentation, but their role in shaping the extent and condition of tidal wetlands has received little attention. Here, we show that the 18.61-year lunar nodal cycle, popularly termed the "lunar wobble," is a dominant control over the expansion and contraction of mangrove canopy cover over much of the Australian continent. Furthermore, the contrasting phasing of the 18.61-year lunar nodal cycle between diurnal and semidiurnal tidal settings has mediated the severity of drought impacts in northern bioregions. Long-phase tidal cycles regulate maximum tide heights, are an important control over mangrove canopy cover, and may influence mangrove ecosystem services including forest productivity and carbon sequestration at regional scales.

AB - Long-phase (interannual) tidal cycles have been shown to influence coastal flooding and sedimentation, but their role in shaping the extent and condition of tidal wetlands has received little attention. Here, we show that the 18.61-year lunar nodal cycle, popularly termed the "lunar wobble," is a dominant control over the expansion and contraction of mangrove canopy cover over much of the Australian continent. Furthermore, the contrasting phasing of the 18.61-year lunar nodal cycle between diurnal and semidiurnal tidal settings has mediated the severity of drought impacts in northern bioregions. Long-phase tidal cycles regulate maximum tide heights, are an important control over mangrove canopy cover, and may influence mangrove ecosystem services including forest productivity and carbon sequestration at regional scales.

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DO - 10.1126/sciadv.abo6602

M3 - Article

C2 - 36103537

SN - 2375-2548

VL - 8

JO - Science Advances

JF - Science Advances

M1 - eabo6602

ER -

The lunar nodal cycle controls mangrove canopy cover on the Australian continent

Abstract

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