ABSTRACT: Soil disturbance, a key contributor to physical degradation in seagrass ecosystems, can lead to long-term changes in ecosystem function. We used a chronosequence of vessel grounding disturbances of different ages (0 yr, 1 yr, 3 yr, 4 yr, 5+ yr) as a model for soil disturbance to test hypotheses that disturbance alters primary producer communities, soil properties, biogeochemical processes, and infauna communities in seagrass ecosystems and that altered structure and processes will change following disturbance through seagrass bed development and ecosystem recovery. Disturbance involving excavated surface soils resulted in long-term loss of seagrass and macroalgae and stored organic carbon, nitrogen, and phosphorus. Disturbed sites were characterized by reductions in variables related to organic matter and inorganic nutrient content. Disturbance altered habitat quality for some taxa including amphipods, as evident from differences in invertebrate community structure. These impacts persisted in study sites for 5+ yr after the disturbance, likely because of physical and chemical soil modification accompanied by slow development of the seagrass community. We estimate that disturbance from 0.4 m deep excavations led to losses of 6.0 kg m-2 organic C (Corg), 0.4 kg m-2 N, and 0.03 kg m-2 P from the disturbed areas. First-order conservative estimates of scarring excavation rate in Miami-Dade County, Florida, USA, suggest potential annual fluxes of 1.1 × 106 kg Corg, 74000 kg N, and 5500 kg P from seagrass soils in the region. Our findings suggest that vessel grounding disturbances create complex and long-term resource losses that are undervalued by resource trustees.
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机译:摘要:土壤扰动是造成海草生态系统物理退化的关键因素,可导致生态系统功能的长期变化。我们使用了不同年龄(0年,1年,3年,4年,5岁以上)的船只接地扰动的时间序列作为土壤扰动模型,以检验扰动会改变初级生产者群落,土壤特性,生物地球化学过程,以及海草生态系统中的动物群落,并且由于海草床的发展和生态系统的恢复,结构和过程的变化将发生变化。涉及开挖的表层土壤的扰动导致海草和大型藻类的长期损失,并存储了有机碳,氮和磷。受干扰的地点的特点是减少了与有机物和无机养分含量有关的变量。从无脊椎动物群落结构的差异可以明显看出,扰动改变了某些类群包括两栖动物的栖息地质量。这些影响在干扰后在研究地点持续了5年以上,这可能是由于物理和化学土壤改性以及海草群落的缓慢发育所致。我们估计0.4 m深开挖中的扰动会导致6.0 kg m -2 sup>有机碳(C org sub>),0.4 kg m -2 sup的损失> N,并且从受扰区域获得0.03 kg m -2 sup>P。对美国佛罗里达州迈阿密戴德县疤痕开挖率的一阶保守估计表明,潜在的年通量为1.1×10 6 sup> kg C org sub>,N 4000,和该地区海草土壤中的5500千克磷。我们的发现表明,船只接地干扰会造成复杂而长期的资源损失,而资源受托人则低估了这些损失。 p>
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