巨大ケルプの生産性には資源量より攪乱の影響が大きい(Disturbance has a greater effect on giant kelp productivity than does resource availability)

2026-07-13 カリフォルニア大学サンタバーバラ校

米国カリフォルニア大学サンタバーバラ校(UCSB)の研究チームは、巨大コンブ(ジャイアントケルプ)の生産性は、光や栄養塩などの資源量よりも、嵐や波浪などによる攪乱(disturbance)の影響を強く受けることを明らかにした。研究では、長期観測データを用いて、ケルプ林の成長と環境要因との関係を解析した。その結果、栄養塩や光条件が良好であっても、大規模な波浪や嵐によって藻体が損傷・流失すると、生産性は大きく低下することが判明した。一方、攪乱が少ない年には資源条件の違いによる影響は比較的小さかった。これらの結果は、気候変動によって海洋熱波や暴風の頻度・強度が変化する将来には、巨大コンブ林の生産性や炭素固定能力、生物多様性維持機能を予測する上で、資源供給だけでなく攪乱の影響を重視する必要があることを示している。本研究は、沿岸生態系の保全や管理、気候変動への適応策を検討する上で重要な知見を提供する。

巨大ケルプの生産性には資源量より攪乱の影響が大きい(Disturbance has a greater effect on giant kelp productivity than does resource availability)

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ジャイアントケルプ林における撹乱が純一次生産量に及ぼす直接的および間接的な影響 Direct and indirect effects of disturbance on net primary production in giant kelp forests

Billie A. Beckley, Andrew Rassweiler, Max C. N. Castorani, Jarrett E. K. Byrnes, Daniel C. Reed, Robert J. Miller

Ecology  Published: 06 May 2026

DOI:https://doi.org/10.1002/ecy.70393

Abstract

Disturbances can strongly impact the biomass, abundance, and size and age structure of plant populations, with cascading consequences for net primary production (NPP). Studies investigating sources of interannual variation in annual NPP have largely focused on how interannual fluctuations in resources control plant growth throughout the year, without considering the extent to which interannual fluctuations in disturbance impact the production potential of the system. To address this gap, we evaluated how interannual variation in disturbance affects annual NPP via its three constituent parts, initial production potential, recruitment, and growth in southern California (USA) kelp forests, which are among the world’s most productive ecosystems. We estimated mass-specific growth rates and NPP of giant kelp (Macrocystis pyrifera) from a model of biomass dynamics developed from monthly field measurements at three sites over a 20-year period. We discovered that initial production potential (i.e., foliar standing biomass at the start of the growing season) and recruitment of new plants accounted for 46% and 26% of the observed variation in annual NPP, respectively. By contrast, the annual growth rate of giant kelp, which averaged 2%–6% day−1, did not explain significant variation in annual NPP despite substantial interannual variation in environmental conditions (e.g., temperature) and nutrient availability during the study period. A piecewise structural equation model explained 82% of the variation in annual NPP and revealed how disturbance from winter waves and sand burial of reef substrate indirectly influenced NPP via their direct and indirect effects on initial production potential and recruitment. Our results highlight the critical but understudied role of disturbance in altering production potential and recruitment to control ecosystem productivity, and the importance of long-term studies in gaining a mechanistic understanding of these processes under intensifying disturbance regimes.

1404水産水域環境
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