Relationship between extreme species richness and Holocene persistence of forest-steppe grasslands in Transylvania, Romania

Jan Novák, Pavel Šamonil, Jan Roleček
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Abstract

The most species-rich grasslands worldwide are known from the Carpathian Mts and their periphery in East-Central Europe. They occur in forest-steppe regions, transitional between temperate forest and arid steppe biomes. Their climate, largely suitable for forests, raises questions about the origin of these grasslands. Have they been forested in the past, or locally maintained through a disturbance regime? We addressed these questions to contribute to the broader understanding of Holocene dynamics of open habitats in temperate Europe. We employed soil charcoal analysis and soil morphology to reconstruct past representation of woody species with fine spatial resolution. Our study area was Romanian Transylvania, a region renowned for a well-developed forest-steppe. Six soil profiles along a climatic gradient were assessed: four in forest-steppe grasslands, two in grasslands in adjacent forest region (forest grasslands). The results revealed profound differences between forest-steppe and forest grasslands. Forest-steppe profiles showed Phaeozems with low specific anthracomass of woody species and continuous dominance by Juniperus, suggesting a long-term presence of grasslands. Forest grasslands showed Luvisols with higher anthracomass and abundant charcoal of broad-leaved trees, indicating establishment after deforestation. The high radiocarbon ages of charcoals in basal soil horizons point to a glacial origin of soils and the link of forest-steppe grasslands to glacial forests. Siberian hemiboreal forests and related grasslands may be modern analogues of the reconstructed ecosystems, sharing many species with present day forest-steppe. We suggest that disturbances such as fire, herbivore grazing, and human activities have played an important role in shaping the forest-steppe over time, contributing to the formation of today’s richest grasslands.
罗马尼亚特兰西瓦尼亚森林草原极端物种丰富度与全新世草原持久性之间的关系
已知全世界物种最丰富的草原来自欧洲中东部的喀尔巴阡山脉及其周边地区。它们位于森林-草原地区,是温带森林和干旱草原生物群落之间的过渡地带。它们的气候在很大程度上适合森林生长,这就引发了有关这些草原起源的问题。它们在过去是否曾被森林覆盖,还是在当地通过扰动机制得以维持?我们探讨了这些问题,以帮助人们更广泛地了解温带欧洲开放栖息地的全新世动态。我们采用土壤木炭分析和土壤形态学方法,以精细的空间分辨率重建了过去木质物种的分布情况。我们的研究区域是以森林草原发达而闻名的罗马尼亚特兰西瓦尼亚。我们沿气候梯度对六个土壤剖面进行了评估:四个在森林草原,两个在邻近森林地区的草原(森林草原)。结果表明,森林草原和森林草原之间存在很大差异。森林草原的剖面显示,Phaeozems 的木质树种比炭疽量较低,桧木一直占主导地位,这表明草原长期存在。森林草原则显示出具有较高炭质和大量阔叶树木炭的 Luvisols,这表明草原是在森林砍伐之后才形成的。基底土壤层中木炭的高放射性碳年代表明土壤起源于冰川,森林草原与冰川森林之间存在联系。西伯利亚半冰期森林和相关草原可能是重建生态系统的现代类似物,与当今的森林草原共享许多物种。我们认为,火灾、食草动物放牧和人类活动等干扰因素在塑造森林草原的过程中发挥了重要作用,促成了今天最丰富的草原的形成。
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