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Main Authors: English, Chance J, Bell, Tom W, Opalk, Keri, Siegel, David A, Carlson, Craig A
Format: Artículo científico
Language:en
Published: Communications biology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40775307/
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author English, Chance J
Bell, Tom W
Opalk, Keri
Siegel, David A
Carlson, Craig A
author_facet English, Chance J
Bell, Tom W
Opalk, Keri
Siegel, David A
Carlson, Craig A
English, Chance J
Bell, Tom W
Opalk, Keri
Siegel, David A
Carlson, Craig A
collection PubMed - marine biology
contents Senescence-driven solubilization of biomass is the main source of kelp-derived dissolved organic carbon to the coastal ocean. English, Chance J Bell, Tom W Opalk, Keri Siegel, David A Carlson, Craig A Biomass Carbon Kelp Macrocystis Oceans and Seas Seawater Solubility Seasons Kelp forests form some of the most productive areas on earth and are proposed to sequester carbon in the ocean, largely in the form of released dissolved organic carbon (DOC). Here we investigate the role of environmental, seasonal and age-related physiological gradients on the partitioning of net primary production (NPP) into DOC by the canopy forming giant kelp (Macrocystis pyrifera). Rates of DOC production were strongly influenced by an age-related decline in physiological condition (i.e. senescence). During the mature stage of giant kelp development, DOC production was a small and constant fraction of NPP regardless of tissue nitrogen content or light intensity. When giant kelp entered its senescent phase, DOC production increased substantially and was uncoupled from NPP and light intensity. Compositional analysis of giant kelp-derived DOC showed that elevated DOC production during senescence was due to the solubilization of biomass carbon, rather than by direct exudation. We coupled our incubation and physiological experiments to a novel satellite-derived 20-year time series of giant kelp canopy biomass and physiology. Annual DOC production by giant kelp varied due to differences in standing biomass between years, but on average, 74% of the annual DOC production by giant kelp was due to senescence. This study suggests DOC may be a more important fate of macroalgal NPP than previously recognized.
format Artículo científico
id pubmed_40775307
institution PubMed
language en
publishDate 2025
publisher Communications biology
record_format pubmed
spellingShingle Senescence-driven solubilization of biomass is the main source of kelp-derived dissolved organic carbon to the coastal ocean.
English, Chance J
Bell, Tom W
Opalk, Keri
Siegel, David A
Carlson, Craig A
Biomass
Carbon
Kelp
Macrocystis
Oceans and Seas
Seawater
Solubility
Seasons
Senescence-driven solubilization of biomass is the main source of kelp-derived dissolved organic carbon to the coastal ocean. English, Chance J Bell, Tom W Opalk, Keri Siegel, David A Carlson, Craig A Biomass Carbon Kelp Macrocystis Oceans and Seas Seawater Solubility Seasons Kelp forests form some of the most productive areas on earth and are proposed to sequester carbon in the ocean, largely in the form of released dissolved organic carbon (DOC). Here we investigate the role of environmental, seasonal and age-related physiological gradients on the partitioning of net primary production (NPP) into DOC by the canopy forming giant kelp (Macrocystis pyrifera). Rates of DOC production were strongly influenced by an age-related decline in physiological condition (i.e. senescence). During the mature stage of giant kelp development, DOC production was a small and constant fraction of NPP regardless of tissue nitrogen content or light intensity. When giant kelp entered its senescent phase, DOC production increased substantially and was uncoupled from NPP and light intensity. Compositional analysis of giant kelp-derived DOC showed that elevated DOC production during senescence was due to the solubilization of biomass carbon, rather than by direct exudation. We coupled our incubation and physiological experiments to a novel satellite-derived 20-year time series of giant kelp canopy biomass and physiology. Annual DOC production by giant kelp varied due to differences in standing biomass between years, but on average, 74% of the annual DOC production by giant kelp was due to senescence. This study suggests DOC may be a more important fate of macroalgal NPP than previously recognized.
title Senescence-driven solubilization of biomass is the main source of kelp-derived dissolved organic carbon to the coastal ocean.
topic Biomass
Carbon
Kelp
Macrocystis
Oceans and Seas
Seawater
Solubility
Seasons
url https://pubmed.ncbi.nlm.nih.gov/40775307/