Pacific ocean mega ecotone of Northern Eruasia as the belt of the origin of the modern continental biosphere

E. Kolomyts
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Abstract

The Pacific Ocean margin of Eurasia includes the age row (at the geologic time scale) of geoecotone objects which can be imagined by certain nodal stages of the evolutionary trajectory of exogenous landscape genesis in the continental biosphere. The reported strategy of scientific research is aimed at the establishment of zonal-regional and local regularities of landscape organization of insular and marginal-continental land in different morphotectonic and macroclimatic sectors of the Pacific Ocean mega-ecotone of Northern Eurasia, which is considered as a natural laboratory for studying the modern stage of development of the geographical envelope The empirical statistical models of the island-arc stage of continental biosphere development in the North-West Pacific have been created by the example of experimental test ground of the active Mendeleev volcano on the Kunashir Island (the South Kuril Ridge). It was shown that on this initial stage local geomorphological and hydro-edaphic conditions created the centers of origin of diverse phytocoenological structures. An exceptionally high percentage of green mass in the structure of production results in the acceleration of the biological cycle as a factor of stability of forest community under unfavorable conditions of “cold” oceanicity. Geothermal energy induces rearrangement of the plant cover towards the increase in its flora- and phytocoenotic diversity to the detriment of biomass formation rate. The “climatically unjustified” but sufficiently stable sub-boreal forest ecosystems were formed, as well as the early stages of buffer forest communities. The multidimensional empirical-statistical modeling of landscape connections in the marginal-continental sector of the Pacific Ocean mega ecotone has been performed based on an experimental site in the Lower By-Amur Region. The ecology of the boreal-forest landscape of the continental margin characterizes the mature stage of evolution of the continental biosphere. The regularities and causal mechanisms of the formation of buffer forest communities typical of ecotone systems have been represented more integrally. Forests of this phenomenal buffer flora are distinguished by extremely high parameters of structural and functional development and have reached the state approaching the evolutionary climax. The previously advanced concepts of the Pacific ecotone of Northern Eurasia as a focus of evolutionary processes in the continental biosphere have been confirmed.
欧亚大陆北部的太平洋巨型过渡带是现代大陆生物圈的起源带
欧亚大陆的太平洋边缘包括地质过渡带对象的年龄行(在地质时间尺度上),这些对象可以通过大陆生物圈外源景观发生演化轨迹的某些节点阶段来想象。报告的科学研究策略旨在建立欧亚大陆北部太平洋巨型过渡带不同形态构造和宏观气候部门的岛屿和边缘大陆陆地景观组织的地域性和局部性规律。以库纳希尔岛(南千岛脊)门捷列夫活火山实验试验场为例,建立了西北太平洋大陆生物圈发展的岛弧阶段的经验统计模型。结果表明,在这一初始阶段,当地的地貌和水文土壤条件创造了各种植物群落结构的起源中心。在生产结构中,绿色质量的比例异常高,导致生物循环加速,这是在不利的“冷”海洋性条件下森林群落稳定的一个因素。地热能引起植被的重新排列,增加植物群落多样性,损害生物量的形成速率。形成了“气候不合理”但足够稳定的亚北方森林生态系统,以及早期的缓冲森林群落。基于下阿穆尔河地区的一个实验场地,对太平洋巨型过渡带边缘-大陆板块景观联系进行了多维经验统计建模。大陆边缘寒带森林景观的生态学特征是大陆生物圈演化的成熟阶段。对典型过渡带缓冲林群落形成的规律和成因机制进行了较为完整的阐述。这一惊人的缓冲植物群的森林具有极高的结构和功能发育参数,并已达到接近进化高潮的状态。以前关于欧亚大陆北部太平洋带是大陆生物圈演化过程中心的先进概念已得到证实。
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