Veronika Vlčková scite author profile

Abstract:The regional effects of climate change on forest ecosystems in the temperate climate zone of Europe can be modelled as shifts of forest vegetation zones in the landscape, northward and to higher elevations. This study applies a biogeographical model of climate conditions in the forest vegetation zones of the Central European landscape, in order to predict the impact of future climate change on the most widespread tree species in European deciduous forests-the European beech (Fagus sylvatica L.). The biogeographical model is supported by a suite of software applications in the GIS environment. The model outputs are defined as a set of conditions -climate scenario A1B by the Special Report on Emission Scenarios (SRES) for a forecast period, for a specified geographical area and with ecological conditions appropriate for the European beech, which provide regional scenarios for predicted future climatic conditions in the context of the European beech's environmental requirements. These predicted changes can be graphically visualized. The results of the model scenarios for regional climate change show that in the Czech Republic from 2070 onwards, optimal growing conditions for the European beech will only exist in some parts of those areas where it currently occurs naturally. Based on these results, it is highly recommended that the national strategy for sustainable forest management in the Czech Republic be partly re-evaluated. Thus, the presented biogeographical model of climate conditions in forest vegetation zones can be applied, not only to generate regional scenarios of climate change in the landscape, but also as a support tool for the development of a sustainable forest management strategy.

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Biogeographic model of climate conditions for vegetation zones in Czechia

Machar¹,

Voženílek²,

Kirchner³

et al. 2017

Geografie

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The paper demonstrates the results of a biogeographic model of climatic conditions of vegetation zones in the landscape of Czechia. The model uses climatological prediction data of the Czech Hydrometeorological Institute for the time period 2010–2100 according to the SRES A1B scenario and geobiocoenological characteristics of vegetation zonation of the landscape from the Register of biogeography. According to the model, the projected trends in climatic conditions of vegetation zones will be demonstrated by a substantial improvement in the conditions suitable for xerothermophilous Ponto-Pannonian biota in Czechia (the area of the 1st vegetation zone will increase). On the contrary, the size of the area with climatic conditions of the 6th to 8th vegetation zone will decrease. The model allows an algorithmization of specific climatic growing conditions of individual biological species. Thanks to this, it can be applied not only for the creation of scenarios of climate change in the landscape, but also as a support tool for creating strategies of adaptation and mitigation measures.

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The Application of Geobiocoenological Landscape Typology in The Modelling of Climate Change Implications

Vlčková

Buček

Machar

et al. 2015

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Geobiocoenological landscape typology, which is used in landscape planning in the Czech Republic, includes vegetation zonation of the landscape. Vegetation zones are determined by climatic conditions. Changes in climatic conditions will probably be manifested in the shift of vegetation zones in the landscape. Mathematical geobiocoenological model of vegetation zonation of the landscape is based on the general ecological relationship between the current vegetation zonation and present climatic conditions and the assumption that this general relationship will be maintained in the future. The paper presents the application of the model using the example of the prediction of changes in climatic conditions for the Norway spruce (the first-generation of the model) and grapevine (the second-generation of the model) in the Czech Republic. In the case of the Norway spruce example, the model shows that the predicted changes in climatic conditions will prevent the cultivation of the spruce in the Czech Republic outside its natural range in mountainous areas. The results of the presented model for grapevine show significant enlargement of areas climatically suitable for growing grapes within the studied area.These examples demonstrate the potential for the application of geobiocoenological landscape typology in the modeling of the effects of climate change in the landscape.

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Environmental Modelling of Climate Change Impact on Grapevines: Case Study from the Czech Republic

Machar¹,

Vlčková²,

Buček³

et al. 2017

Pol. J. Environ. Stud.

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Predicted climate change can significantly affect ecosystem services in agricultural landscapes. Possibilities of predicting climate change effects on growing conditions of crops are therefore sought for practical reasons. The aim of the present study is to contribute to the current discussions about the impact of climate change on agriculture. The case study from the Czech Republic presents methods and results of environmental modelling of the impact of predicted climatic changes on future conditions for growing grapevines. The model is based on the ecological relationship between climate and vegetation zonation of the landscape and thus belongs to the group of process biogeographic models applicable on a regional scale. The results of the presented model show significant enlargement of areas climatically suitable for growing grapes within the studied area. The results of the model relevant to the Czech Republic are in line with the previous assumptions of trends in future impacts of climate change on viticulture in Europe. However, the data resulting from the presented model, which relate to the time horizon beyond 2050, should be regarded as indicative and fraught with a high degree of uncertainty linked with the uncertainty of the input climatological prediction for this time period.

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Changes to Land Area Used for Grain Maize Production in Central Europe due to Predicted Climate Change

Pavlík

Vlčková

Machar

2019

International Journal of Agronomy

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Regional biogeographical models are considered to be important tools for supporting decisions relating to sustainable agricultural planning for climate change. These models are useful for a better understanding of the impact of climate change on individual crop species due to their sensitivity to regional ecological conditions. This paper deals with the application of a regional biogeographical model in order to predict the impact of climate change on growing conditions for grain maize in Central Europe. The model is based on a detailed knowledge of the relationships between the climatic characteristics of vegetation zones in landscapes with ecological growing conditions suitable for grain maize in the region under study. The results gained from using the model indicate a substantial increase in the total area suitable for growing of grain maize in the study region. By 2070, this area is expected to be triple the size it is today. Special maps are used to visualize prediction scenarios in order to support decision-making in regional planning in the study region, where grain maize is an important agricultural crop. This biogeographical model can be used in other European regions, where basic data related to vegetation zones are available.

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