森林は複雑な樹冠によって適度な攪乱から回復する(Complex tree canopies help forests recover from moderate disturbances)

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2024-02-06 パデュー大学

◆猛烈な自然災害が森林を壊滅させ、複雑な生態系や地域社会を劇的に消滅させる一方、比較的小規模な火災、氷の嵐、および害虫や病原体の発生など、より一般的な中程度の被害についてはあまり知られていない。
◆プデュー大学の研究者らは、国家生態観測ネットワーク(NEON)のデータを基に、中程度の自然災害が森林の樹冠構造に異なる変化をもたらし、複雑な樹冠構造の森林は被害からよりよく回復することを示した。この研究は、森林の管理を通じて構造の複雑性を促進することで、森林がさまざまな被害に対してより強靭になる可能性を示唆している。

<関連情報>

森林の樹冠構造に対する中程度の攪乱の短期的影響 Short-term effects of moderate severity disturbances on forest canopy structure

Dennis Heejoon Choi, Elizabeth A. LaRue, Jeff W. Atkins, Jane R. Foster, Jaclyn Hatala Matthes, Robert T. Fahey, Bina Thapa, Songlin Fei, Brady S. Hardiman
Journal of Ecology  Published: 12 June 2023
DOI:https://doi.org/10.1111/1365-2745.14145

森林は複雑な樹冠によって適度な攪乱から回復する(Complex tree canopies help forests recover from moderate disturbances)

Abstract

  1. Moderate severity disturbances, those that do not result in stand replacement, play an essential role in ecosystem dynamics. Despite the prevalence of moderate severity disturbances and the significant impacts they impose on forest functioning, little is known about their effects on forest canopy structure and how these effects differ over time across a range of disturbance severities and disturbance types.
  2. Using longitudinal data from the National Ecological Observatory Network project, we assessed the effects of three moderate severity press disturbances (beech bark disease, hemlock woolly adelgid and emerald ash borer, which are characterized by continuous disturbance and sustained mortality) and three moderate severity pulse disturbances (spring cankerworm moth, spongy moth and ground fire, which are associated with discrete and relatively short mortalities) on temperate forest canopy structure in eastern US. We studied (1) how light detection and ranging (LiDAR)-derived metrics of canopy structure change in response to disturbance and (2) whether initial canopy complexity offsets impact of disturbances on canopy structure over time. We used a mixed-effects modelling framework which included a non-linear term for time to represent changes in canopy structure caused by disturbance, and interactions between time and both disturbance intensity and initial canopy complexity.
  3. We discovered that high intensity of both press and pulse disturbances inhibited canopy height growth while low intensity pulse disturbances facilitated it. In addition, high intensity pulse disturbances facilitated increases in the complexity of the canopy over time. Concerning the impact of initial canopy complexity, we found that the initial canopy complexity of disturbed plots altered the effects of moderate disturbances, indicating potential resilience effects.
  4. Synthesis. This study used repeated measurements of LiDAR data to examine the effects of moderate disturbances on various dimensions of forest canopy structure, including height, openness, density and complexity. Our study indicates that both press and pulse disturbances can inhibit canopy height growth over time. However, while the impact of press disturbances on other dimensions of canopy structure could not be clearly detected, likely because of compensatory growth, the impact of pulse disturbances over time was more readily apparent using multi-temporal LiDAR data. Furthermore, our findings suggest that canopy complexity might help to mitigate the impact of moderate disturbances on canopy structures over time. Overall, our research highlights the usefulness of multi-temporal LiDAR data for assessing the structural changes in forest canopies caused by moderate severity disturbances.
1304森林環境
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