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The amount of methane leaked from deep sea cold seeps is enormous and potentially affects the global warming,ocean acidification and global carbon cycle. It is of great significance to study the methane bubble movement and dissolution process in the water column and its output to the atmosphere. Methane bubbles produce strong acoustic impedance in water bodies, and bubble strings released from deep sea cold seeps are called "gas flares"which expressed as flame-like strong backscatter in the water column. We characterized the morphology and movement of methane bubbles released into the water using multibeam water column data at two cold seeps. The result shows that methane at site I reached 920 m water depth without passing through the top of the gas hydrate stability zone(GHSZ, 850 m), while methane bubbles at site II passed through the top of the GHSZ(597 m) and entered the non-GHSZ(above 550 m). By applying two methods on the multibeam data, the bubble rising velocity in the water column at sites I and II were estimated to be 9.6 cm/s and 24 cm/s, respectively. Bubble velocity is positively associated with water depth which is inferred to be resulted from decrease of bubble size during methane ascending in the water. Combined with numerical simulation, we concluded that formation of gas hydrate shells plays an important role in helping methane bubbles entering the upper water bodies, while other factors, including water depth, bubble velocity, initial kinetic energy and bubble size, also influence the bubble residence time in the water and the possibility of methane entering the atmosphere. We estimate that methane gas flux at these two sites is 0.4×10~6–87.6×10~6 mol/a which is extremely small compared to the total amount of methane in the ocean body, however, methane leakage might exert significant impact on the ocean acidification considering the widespread distributed cold seeps. In addition, although methane entering the atmosphere is not observed, further research is still needed to understand its potential impact on increasing methane concentration in the surface seawater and gas-water interface methane exchange rate, which consequently increase the greenhouse effect. 相似文献
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西太平洋高丰度高覆盖率多金属结核的发现受到各国学者的高度关注,如何高效探测不同覆盖率和丰度的多金属结核分布特征是目前研究的重点。利用EM122多波束回波强度资料对西太平洋海盆结核分布特征进行分析,结果表明,回波强度的高低变化与结核覆盖率关系密切,而当结核覆盖率相当时,回波强度的高低变化反映了结核的粒径大小,其中大型结核(直径D>6 cm)较多时,回波强度值明显增大。利用最大似然分类方法对回波强度资料进行监督分类,得出深海沉积物、低丰度、中等丰度和高丰度结核空间分布,结果显示,深海粘土沉积区与丰度>>30 kg/m2的高丰度结核分布区多回波强度差异高达近20 dB。 相似文献
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地震资料数据处理中,高斯束偏移方法不仅拥有射线类方法高效性,还具有波动方程类方法的高质量成像精度.但高斯束偏移受其初始波束参数影响较大,选定的初始宽度大小,直接影响近地表区域成像精度好坏,而将动态聚焦射线束引入到高斯束偏移中,在射线追踪过程中采用变化而非固定的初始宽度参数,合理控制射线束的传播范围,解决了高斯束束宽随传播距离增加发散过快的问题,且针对低信噪比的地震数据的问题,无法得到高信噪比的成像精度.本文从高斯束理论出发,采用τ-p域阈值控制和动态聚焦初始波束方法策略,发展了一种基于τ-p域动态聚焦控制束偏移方法.有效压制了噪声数据干扰,削弱了初始波束对射线传播范围影响,充分的改善了复杂构造区域的成像质量,并通过了水平层状模型和Marmousi模型,以及胜利油田东部某探区的实际资料进行了测试来验证了我们方法的正确性和有效性. 相似文献
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多波束测深数据广泛服务于水下地形测量。一些基于测深数据的应用需要提取测深数据的边缘轮廓和探测数据中的空洞。针对已有边缘识别算法执行效率低、边界点提取不完整等问题,通过分析点云模型的局部几何属性,提出一种新的基于k-d树的由粗到精的边缘提取算法。首先抽稀测深数据,基于k-d树建立散乱点云的拓扑关系;然后计算散乱点云法向量,采用距离及角度阈值法进一步提取孔洞与边缘轮廓点并去除错误识别的点;最后基于凹包算法,精确获取边缘轮廓点。在西太平洋海域的实验表明:相较于Alpha-shape和Boundary estimation算法,本算法能够更为精确地识别出散乱点云中的边界点,实用性强。 相似文献
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