物理化学因子——以浮游植物为指标的墨西哥城自然保护区两个近郊湖泊水质

J. R. Latournerié-Cervera, A. R. Estrada-Ortega, A. K. Escobar-Álvarez, A. J. Quino-Trejo, R. G. Barrera-Pastrana, Y. Nacif-Osorio
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引用次数: 0

摘要

自然保护区(ANP),Ejidos de Xochimilco和San Gregorio Atlapulco(SGA),是墨西哥城(CDMX)生态保护的优先区域,这些区域仍然保留着墨西哥河谷流域古老湖泊系统的残余,由于人类活动的影响,这些系统已经修改了几十年,并威胁到其连续性,尽管已被宣布为RAMSAR遗址和CDMX的历史文化遗产。鉴于上述情况,本研究旨在比较物理化学因素和浮游植物作为人为影响指标的时空变异性,以诊断该地区的现状,并提出研究区域可持续管理的可能替代方案。研究设计考虑了在干旱和雨季这两个截然不同的气候季节比较SGA湿地的河道和泻湖面积。在3月和7月期间,划定了11个采样站:3个在海峡地区,8个在泻湖。测量了九个物理化学变量:温度、pH、总固体、电导率、溶解氧,以及每个采样站表面和底部样品中铵、亚硝酸盐、硝酸盐和可溶性磷的浓度。统计设计考虑了固定效应(时期-位置和地层)的析因设计,使用Tukey的“事后”检验来划分子集和各种多元分析技术。在这两个地方都采集了浮游植物样本,并对其进行了属级鉴定,评估了各种分类群的相对频率,以及它们通过腐性和多样性指数的关联性。水质变量表明,湿地的河道和泻湖区域都具有超富营养特征,但由于半隔离,湿地的硝酸盐平均水平是河道区域的2.4倍,亚硝酸盐浓度几乎难以察觉,氨在现有生物群的可容忍范围内。与通道的面积相比,它在物理化学动力学方面也表现出时空同质性。两个地点的物种组成也不同,表明对湿地区域的影响较小,因此建议利用该地点对从河道区域移除的物种进行重新引入活动,并保护湖泊系统中剩余的生物群。
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Physico-chemical Factors an Phytoplankton as Indicators of the Water Quality in Two Periurbans Lakes of a Natural Protected Area in Mexico City
The protected natural area (ANP), Ejidos de Xochimilco and San Gregorio Atlapulco (SGA), is a priority area of ecological conservation in Mexico City (CDMX), that still have remnants of the ancient lake system of the Valley of Mexico watershed that have been modified for decades due to the impact of human activities and that threaten their continuity, despite been declared as a RAMSAR site and historical and cultural heritage of CDMX. Given the above, the present study aimed to compare the spatial-temporal variability of physical-chemical factors and phytoplankton as indicators of anthropogenic impact to diagnose the current state of this locality and propose possible alternatives for sustainable management in the study area. The research design considered comparing the area of channels and lagoons of the SGA wetland in two contrasting climatic seasons: dry and rainy. Eleven sampling stations were delimited: three in the channels area and eight in the lagoons, during the months of March and July. Nine physical-chemical variables were measured: temperature, pH, total solids, conductivity, dissolved oxygen, as well as the concentrations of ammonium, nitrites, nitrates, and soluble phosphorus in surface and bottom samples from each sampling station. The statistical design took into account a factorial design of fixed effects (epochs - locations and strata), with Tukey's "post hoc" test to delimit subsets and various multivariate analysis techniques. Phytoplankton samples were taken in both localities, which were identified down to the genus level, evaluating the relative frequency of the various taxa, as well as their association through the saprobity and diversity indexes. The water quality variables indicated that both the area of channels and the lagoons of the wetland are sites with hypereutrophic characteristics, but the wetland due to its semi-isolation is an area that presents on average levels of nitrates 2.4 times lower than in the channel zone, nitrite concentrations are almost imperceptible, and ammonia is within tolerable limits for the existing biota. It also presents space-time homogeneity in its physical-chemical dynamics, in contrast to the area of channels. The composition of species indicating saprobity also differed between both sites, denoting a lesser impact on the wetland area, so it is suggested to use this site for reintroduction activities of species removed from the channel area and preserve the remaining biota in the lake system.
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