印度洋重力洞

印度洋重力洞（英語: Indian Ocean Geoid Low）是位於印度洋的一處重力異常區域，這裡的重力弱於周圍，形成了海平面上的一個凹陷，覆蓋面積約300萬平方公里（120萬平方英里），幾乎相當於印度的國土面積。作為地球大地水準面上的一個圓形區域，它位於印度半島以南，是地球最大的重力異常區。^[1]^[2]1948年，荷蘭地球物理學家費利克斯·安德里斯·維寧·邁內茲通過船舶重力測量首次發現這一現象，但其成因至今仍是個謎。2023年5月，科學家通過計算機模擬和地震數據提出假說，試圖解釋這一局部重力減弱現象。^[3]

位置、特徵與成因

這一重力異常區的中心位於斯里蘭卡和印度大陸最南端科摩林角的西南方向，非洲之角以東。由於局部重力較弱，若忽略潮汐和海流等次要因素，印度洋重力坑的海平面將比全球平均海平面（參考橢球體）低106米（348英尺）。^[4]^[5]

Ghosh教授假說

基於數百萬年來的板塊構造運動，科學家認為重力洞的形成與印度板塊從非洲分離的過程有關（類似南美洲與非洲的分離）。當印度板塊向中亞移動時，古老的特提斯洋海底碎片在板塊間沉沒，這些高密度物質的下沉被地球內部上涌的低密度地函柱岩漿所抵消。^[1]^[3]這種密度差異導致IOGL區域的重力比正常值弱約50毫伽（0.005%），^[6]形成地球最大的重力異常區。據推測，該大地水準面低點約形成於2000萬年前。^[1]^[3]不過佛羅里達大學的Alessandro Forte博士對此假說提出質疑，認為其無法解釋非洲、歐亞大陸和太平洋周邊類似的板塊運動，尤其是留尼旺島附近作為地球最大火山構造之一的地函柱現象。^[7]

參考文獻

^ ^1.0 ^1.1 ^1.2 Pal, Debanjan; Ghosh, Attreyee. How the Indian Ocean Geoid Low Was Formed. Geophysical Research Letters (American Geophysical Union/Wiley). 16 May 2023, 50 (9). Bibcode:2023GeoRL..5002694P. doi:10.1029/2022GL102694 .
^ Raman, Spoorthy. Scientists find out the cause for geoid low in the Indian Ocean. Indian Institute of Science. 2023 [15 January 2024].
^ ^3.0 ^3.1 ^3.2 Prisco, Jacopo. There is a 'gravity hole' in the Indian Ocean, and scientists now think they know why. CNN. 24 July 2023 [15 January 2024].
^ Rao, B. Padma; Silpa, S. A review of geophysical research: Perspective into the Indian Ocean Geoid Low. Earth-Science Reviews. February 2023, 237: 104309. Bibcode:2023ESRv..23704309R. doi:10.1016/j.earscirev.2022.104309.
^ Raman, Spoorthy. The missing mass – what is causing a geoid low in the Indian Ocean?. GeoSpace. 16 October 2017 [2 May 2022].
^ Ward, Alan. Gravity Anomaly Maps and the Geoid. NASA Earth Observatory. 30 March 2004 [15 January 2024].
^ Scientists Uncover a Massive Gravity Hole in the Indian Ocean—And Its Origins Are More Disturbing Than Expected. MSN. 2025-03-11 [2025-03-15].

延伸閱讀

Ghosh, A., Thyagarajulu, G., Steinberger, B. (2017). "The importance of upper mantle heterogeneity in generating the Indian Ocean geoid low". Geophysical Research Letters, 44, doi:10.1002/2017GL075392.

Singh, S., Agrawal, S., Ghosh, A. (2017). "Understanding deep earth dynamics: A numerical modelling approach". Current Science (Invited Review), 112, 1463–1473.

Ghosh, A., Holt, W. E. (2012). "Plate Motions and Stresses from Global Dynamic Models". Science, 335, 839–843.

2°N 76°E / 2°N 76°E / 2; 76

[HowFormed-1] 1.0 ^1.1 ^1.2 Pal, Debanjan; Ghosh, Attreyee. How the Indian Ocean Geoid Low Was Formed. Geophysical Research Letters (American Geophysical Union/Wiley). 16 May 2023, 50 (9). Bibcode:2023GeoRL..5002694P. doi:10.1029/2022GL102694 .

[2] Raman, Spoorthy. Scientists find out the cause for geoid low in the Indian Ocean. Indian Institute of Science. 2023 [15 January 2024].

[CNN2023-3] 3.0 ^3.1 ^3.2 Prisco, Jacopo. There is a 'gravity hole' in the Indian Ocean, and scientists now think they know why. CNN. 24 July 2023 [15 January 2024].

[4] Rao, B. Padma; Silpa, S. A review of geophysical research: Perspective into the Indian Ocean Geoid Low. Earth-Science Reviews. February 2023, 237: 104309. Bibcode:2023ESRv..23704309R. doi:10.1016/j.earscirev.2022.104309.

[5] Raman, Spoorthy. The missing mass – what is causing a geoid low in the Indian Ocean?. GeoSpace. 16 October 2017 [2 May 2022].

[6] Ward, Alan. Gravity Anomaly Maps and the Geoid. NASA Earth Observatory. 30 March 2004 [15 January 2024].

[7] Scientists Uncover a Massive Gravity Hole in the Indian Ocean—And Its Origins Are More Disturbing Than Expected. MSN. 2025-03-11 [2025-03-15].

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