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関連する概念動画

Trophic Efficiency00:46

Trophic Efficiency

Trophic level transfer efficiency (TLTE) is a measure of the total energy transfer from one trophic level to the next. Due to extensive energy loss as metabolic heat, an average of only 10% of the original energy obtained is passed on to the next level. This pattern of energy loss severely limits the possible number of trophic levels in a food chain.
Ecological Succession02:17

Ecological Succession

Ecological succession is influenced by the processes of facilitation, inhibition, and toleration. Facilitation occurs when early successional species create more favorable ecological conditions for subsequent species, such as enhanced nutrient, water, or light availability. In contrast, inhibition happens when early successional species create unfavorable ecological conditions for potential successive species, such as limiting resource availability. In some cases, later successional species...
Ecological Disturbance02:26

Ecological Disturbance

An ecological disturbance is a temporary disruption in the environment resulting from abiotic, biotic, or anthropogenic factors, causing a pronounced change in an ecosystem. The impact of an ecological disturbance, which can depend on its intensity, frequency, and spatial distribution, plays a significant role in shaping the species diversity within the ecosystem.Ecological disturbances can be caused by an event as small as the trampling of underbrush to an incident as wide-ranging as a forest...
Optimal Foraging00:48

Optimal Foraging

How animals obtain and eat their food is called foraging behavior. Foraging can include searching for plants and hunting for prey and depends on the species and environment.
Speciation Rates01:07

Speciation Rates

Speciation can proceed at markedly different rates, and evolutionary biologists commonly describe these differences through the models of gradualism and punctuated equilibrium. Both patterns explain how new species arise, but they differ in the tempo and continuity of evolutionary change. In both cases, evolutionary change arises from heritable variation within populations, with natural selection often shaping traits that improve survival and reproduction under specific environmental conditions.
Meristems and Plant Growth02:36

Meristems and Plant Growth

Plants grow throughout their lives; this is called indeterminate growth, and it distinguishes plants from most animals. Although certain parts of plants stop growing (e.g., leaves and flowers), others grow continuously—like roots and stems.

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関連する実験動画

Updated: Jul 12, 2026

Development of an Individual-Tree Basal Area Increment Model using a Linear Mixed-Effects Approach
04:35

Development of an Individual-Tree Basal Area Increment Model using a Linear Mixed-Effects Approach

Published on: July 3, 2020

熱帯雨林では,時間の経過とともに売上高が増加する.

O L Phillips, A H Gentry

    Science (New York, N.Y.)
    |February 18, 1994
    PubMed
    まとめ

    樹木の死亡率と再生率で測定される熱帯林の売上高は,1950年代以降大幅に増加しています. パントロピカル森林全体で観察されるこの加速する傾向は,生物多様性に大きな影響を及ぼす可能性があります.

    科学分野:

    • エコロジー エコロジー エコロジー
    • 森林科学 林業科学 林業科学
    • 気候変動研究 気候変動研究

    背景:

    • 熱帯雨林は,世界の生物多様性と炭素循環にとって重要な生態系である.
    • 森林のダイナミクスを理解することは,樹木の死亡率と樹木の再生を含む,環境変化に対する生態系の反応を予測するために不可欠です.
    • 以前の研究では,森林の組成の変化が示されているが,広範囲の地理的スケールでの転移率の包括的な評価は限られている.

    研究 の 目的:

    • 多数の熱帯雨林地域における樹木の転移率の変化を定量化するために.
    • 森林動態の変化の時間的傾向と潜在的な要因を特定する.
    • トロピカルフォレストの生態系に対するターンボールの変化の影響を評価する.

    主な方法:

    • 40の熱帯地域から数十年にわたる長期森林在庫データの分析.
    • 樹木の死亡率と樹木の再生率の指標を用いて,樹木の転移率の計算.
    • 異なる時期と森林の種類における売上高の統計的比較.

    主要な成果:

    • 1950年代以降,インベントリされた熱帯雨林全体で,平均樹木の転用率の大幅な増加が観察されました.
    • 1980年以降,パントロピカルで森林の転用率の顕著な加速が検出されました.

    さらに関連する動画

    Measuring the Structure, Composition, and Change of Underwater Environments with Large-area Imaging
    09:19

    Measuring the Structure, Composition, and Change of Underwater Environments with Large-area Imaging

    Published on: April 18, 2025

    関連する実験動画

    Last Updated: Jul 12, 2026

    Development of an Individual-Tree Basal Area Increment Model using a Linear Mixed-Effects Approach
    04:35

    Development of an Individual-Tree Basal Area Increment Model using a Linear Mixed-Effects Approach

    Published on: July 3, 2020

    Measuring the Structure, Composition, and Change of Underwater Environments with Large-area Imaging
    09:19

    Measuring the Structure, Composition, and Change of Underwater Environments with Large-area Imaging

    Published on: April 18, 2025

  • 複数のインベントリー期間を持つ22の成熟林地の分析により,森林の売上高の上昇傾向が確認されました.
  • 結論:

    • 熱帯雨林の動態は著しい変化を経験しており,木の死亡率と樹木再生率の上昇が特徴です.
    • 森林の転移の加速は,気候変動や土地利用の圧力を含む可能性のある環境変化に対する広範な反応を示唆しています.
    • 森林の動態の変化は,熱帯雨林の生物多様性と生態系機能の将来に大きな影響を及ぼします.