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3. Effects of abiotic factors on co-occurring Carabus (Coleoptera: Carabidae) species

Author

Ferenc Samu, Dávid Fülöp, Péter Szabó, and Sándor Bérces

Subjects
0106 biological sciences, Abiotic component, Phenology, Ecology, Carabus, 010607 zoology, Cell Biology, Plant Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Taxon, Habitat, Genus, Genetics, Period (geology), Carabus scheidleri, Animal Science and Zoology, Molecular Biology, Ecology, Evolution, Behavior and Systematics
Abstract

The members of the genus Carabus are among the most intensively studied beetle taxa, but many aspects of their autecology are still unexplored. We aimed to study the relationship between measured abiotic parameters and the spatial and temporal distribution of signature carabid species. Carabus assemblages were sampled by pitfalls at six sites belonging to two nearby locations, both forest habitats: in valley and in hill-top position. The sites showed variation in microclimatic and soil characteristics, to which the seven species caught showed specific spatial associations. Carabus scheidleri and C. coriaceus were ubiquitists, occurring at all sites. The habitat specialist C. violaceus germari indicated valley sites with high humidity, lower temperature, limy soil and higher pH, whereas the other specialists, C. nemoralis and C. convexus were strongly associated with the dry, warm, more acidic hill habitat. Remaining species were associated with specific sites and environmental features. The species also exhibited specific phenological patterns corresponding with their habitat preference. Hill habitat species exhibited peak activity density during the hottest summer period, whereas most other species had an activity depression during that period. The results suggest that although Carabus activity density patterns are species specific, they are largely affected by temperature both spatially and temporally.

Published
2020

5. In Situ Investigation of Plastic-Associated Bacterial Communities in a Freshwater Lake of Hungary

Author

Yazid Al-Omari, István Szabó, Sándor Szoboszlay, Milán Farkas, Gábor Soma Szerdahelyi, Jeffrey Griffitts, Balázs Kriszt, Rózsa Sebők, Péter Szabó, and Jafar Al-Omari

Subjects
In situ, Environmental Engineering, biology, Ecology, Ecological Modeling, Aquatic ecosystem, Plastisphere, Biofilm, biology.organism_classification, Pollution, Microbial population biology, Litter, Environmental Chemistry, Surface water, Bacteria, Water Science and Technology
Abstract

Despite the great benefits of plastics in different aspects of life and due to the increase in plastic production and use, plastic wastes are becoming a major environmental concern. It is well known that inappropriate use and disposal lead to the accumulation of plastic litter in different aquatic environments. Microbial biofilm is able to develop on the surface of plastics (plastisphere) in aquatic environments over time. The aim of this study was to describe the bacterial communities associated with plastics in freshwater. Thus, in our first test, a total of six self-designed plastic colonizers were submerged under the surface of the water in Vácszentlászló lake, located in central Hungary, for a period of 3 months. Two plastic colonizers were cultivated monthly. Associated microbial communities were then analyzed as follows: (a) bacterial communities were studied by amplicon sequencing and (b) culturable bacteria were isolated from plastic surfaces and identified by 16S rRNA gene sequencing. Coinciding with these analyses of plastic colonizing communities, surface water samples from the lake were also taken, and in a second test, other materials (eg. wood, glass) associated bacterial communities were also investigated with the same methods. Amplicon sequencing showed notable differences between the plastic and other materials colonizing, and lake waterborne microbial community composition. Using the LB agar, no novel species were found; however, several known pathogenic species were identified. The self-designed plastic colonizer was successfully used during the winter over a 3-month period, suggesting that it could be an appropriate method of choice to study microplastic-associated microbes for longer periods and in variable environmental conditions.

Published
2021

7. Combined effect of environmental temperature and density-dependent processes on the evolution of seasonal metabolic rate patterns

Author

Péter Szabó, Ádám Gyarmati, and Mátyás Paczkó

Subjects
0106 biological sciences, 0301 basic medicine, Range (biology), media_common.quotation_subject, Biology, 010603 evolutionary biology, 01 natural sciences, Competition (biology), 03 medical and health sciences, Environmental temperature, Carrying capacity, Ecosystem, Ecology, Evolution, Behavior and Systematics, media_common, Population Density, Generation time, Ecology, Temperature, Models, Theoretical, Adaptation, Physiological, Metabolism, 030104 developmental biology, Habitat, Density dependent, Metabolic rate, Seasons, sense organs, Algorithms
Abstract

Species exhibit large diversity in their seasonal metabolic patterns which are traditionally explained by habitat specific seasonal temperature changes and various thermoregulatory adaptations. However, due to seasonal changes in resource abundances, density-dependent, ecological processes can also be important selective forces shaping the evolution of metabolic patterns. In the present theoretical study, the combined effect of environmental temperature and resource availability on the evolutionarily stable metabolic strategies is investigated in a consumer–resource model. Our results suggest that, under a broad range of circumstances, density-dependent mechanisms favor the selection of active metabolic regulation, where the metabolic rate differs from the thermally optimal value. This effect may be temporary, limited only to a brief period at seasonal changes, or permanent depending on the implied energetic cost and the relative timescale of environmental changes as compared to the generation time.

Published
2019

9. Phenotypes to remember : Evolutionary developmental memory capacity and robustness

Author

Eörs Szathmáry, András Szilágyi, Mauro Santos, and Péter Szabó

Subjects
Evolutionary Genetics, 0301 basic medicine, Computer and Information Sciences, Neural Networks, QH301-705.5, Computer science, Gene regulatory network, Evolutionary learning, Gene Expression, Analogy, 03 medical and health sciences, Cellular and Molecular Neuroscience, Cognition, Learning and Memory, 0302 clinical medicine, Memory, Genetics, Humans, Gene Regulatory Networks, Gene Regulation, Biology (General), Molecular Biology, Ecology, Evolution, Behavior and Systematics, Cognitive science, Evolutionary Biology, Ecology, Artificial neural network, Evolutionary Developmental Biology, Human evolutionary genetics, Biology and Life Sciences, Computational Biology, Gene Expression Regulation, Developmental, Robustness (evolution), Fault tolerance, Phenotype, Biological Evolution, Phenotypes, 030104 developmental biology, Computational Theory and Mathematics, Modeling and Simulation, Evolutionary developmental biology, Cognitive Science, Knowledge transfer, 030217 neurology & neurosurgery, Research Article, Neuroscience, Developmental Biology
Abstract

There is increased awareness of the possibility of developmental memories resulting from evolutionary learning. Genetic regulatory and neural networks can be modelled by analogous formalism raising the important question of productive analogies in principles, processes and performance. We investigate the formation and persistence of various developmental memories of past phenotypes asking how the number of remembered past phenotypes scales with network size, to what extent memories stored form by Hebbian-like rules, and how robust these developmental “devo-engrams” are against networks perturbations (graceful degradation). The analogy between neural and genetic regulatory networks is not superficial in that it allows knowledge transfer between fields that used to be developed separately from each other. Known examples of spectacular phenotypic radiations could partly be accounted for in such terms., Author summary The development of individual organisms from embryo to adult state is under the control of many genes. During development the initially active genes activate other genes, which in turn change the composition of regulatory elements. The behavior of genetic regulatory systems shows similarities to that of neural networks, of which the most remarkable one is developmental memory, the ability to quickly adapt to environments that have occurred in the past, occasionally several generations earlier. This is because each previously evolved developmental pathway leaves an “imprint” in the gene regulatory network. We investigated the properties of this system; the number of different developmental pathways that can be “memorized”, how this number depends on the number of expressed genes, how fast the system can switch between these pathways, and its robustness against various disturbances affecting either the embryo state or the gene interaction networks. Our results suggest that developmental memory may also provide the mechanism behind some rapid speciation processes.

Published
2020

10. Wood species utilization for timber constructions in the Czech lands over the period 1400–1900

Author

Tomáš Kyncl, Péter Szabó, Tomáš Mikita, Petr Dobrovolný, Tomáš Kolář, Josef Kyncl, Irena Sochová, and Michal Rybníček

Subjects
0106 biological sciences, Czech, 010504 meteorology & atmospheric sciences, Ecology, Species selection, Agroforestry, Plant Science, 15. Life on land, 01 natural sciences, Natural (archaeology), language.human_language, Geography, Dendrochronology, language, Period (geology), Monoculture, Tree species, Regional differences, 010606 plant biology & botany, 0105 earth and related environmental sciences
Abstract

Longstanding demographic growth accompanied by rising settlement activities and development of industry led to an increasing demand on utilization of wood. Tree species were selected for their specific properties. As a consequence of regional differences of forest species composition, wood has become an extremely important trade commodity. Therefore, the utilization of individual species could substantially change in space and time. In this study, we use 8´135 precisely dated timber constructions from a dendrochronological database to investigate spatio-temporal changes in wood utilization across the Czech lands from the 15th to the 19th century. Our results suggest that the utilization of individual species in historical timber constructions was primarily limited by their availability. Species selection was also based on wood properties and stem geometry. Most of historical constructions (99.7%), represented mainly by roofs and ceilings, are made of fir, spruce, pine, and oak. While fir constructions prevail in eastern Moravia and Silesia, spruce constructions are largely spread across the western and central part of the Czech Republic. Pine and oak constructions reflect natural occurrence of such forests in lower elevated central Bohemia and southern Moravia. Although fir prevailed in timber construction in the late-Medieval and post-Medieval times, planting of spruce monocultures resulted in its significantly increased utilization by the end of the 19th century. This study demonstrates the value of dendrochronological databases as an indicator of historical wood utilization.

Published
2021

11. Human impact on open temperate woodlands during the middle Holocene in Central Europe

Author

Jiří Kadlec, Péter Szabó, Peter Tóth, Přemysl Bobek, Eva Jamrichová, Mária Hajnalová, Juraj Procházka, Jan Kolář, and Radim Hédl

Subjects
010506 paleontology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ecology, Steppe, Paleontology, Temperate forest, Plant community, Woodland, Ecological succession, 15. Life on land, 01 natural sciences, Temperate climate, Paleoecology, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences
Abstract

Temperate oak-dominated woodlands are plant communities characterized by relatively open canopy structure and often rich assemblages of light-demanding understory species. This vegetation prevailed in Central European lowlands during the early and middle Holocene. Where open woodlands persisted in later periods, several main factors might have prevented the expansion of shade-tolerant tree species: climate, soil, and disturbances. The last factor includes both natural and human induced agents (fire, grazing of wild or domestic herbivores, management). In our study we focused on the relative impact of the humans and climate on long-term forest vegetation changes in the northerwestern part of the Panonnian Basin. Two peat cores covering the vegetation history of the past 12,000 years have been investigated by means of pollen and charcoal analyses. Palaeoecological data were interpreted in the context of a climatic model and archaeological evidence. Our results showed that the early Holocene vegetation in the study region was composed of open wooded steppe with the dominance of pine. Succession to temperate oak and hazel woodland started in about 7500 cal BP and coincides with the first traces of permanent human settlement in the vicinity of both study sites. Since the Neolithic, different types of woodland management have created a more open forest structure, which has benefited light demanding trees, such as oak and hazel. However, during the middle Holocene several humid oscillations were recorded, which might have triggered the expansion of temperate woodlands. Although the natural or anthropogenic drivers behind the dynamics of temperate woodland could not be separated from each other, it seems probable that long-term human impact influenced the dynamics of temperate woodlands from the middle and late Holocene until the present.

Published
2017

12. Open oakwoods facing modern threats: Will they survive the next fifty years?

Author

Péter Szabó, Radim Hédl, Markéta Chudomelová, and Václav Zouhar

Subjects
0106 biological sciences, education.field_of_study, 010504 meteorology & atmospheric sciences, Environmental change, biology, Ecology, Population, Tilia cordata, Forest management, Plant community, Introduced species, Woodland, Vegetation, 15. Life on land, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Geography, education, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation
Abstract

Open oakwoods are ancient but currently vanishing plant communities of high conservation value. We studied the vegetation of Eurasian steppic oakwoods in the Czech Republic where they are at the westernmost outcrop of their potential distribution to understand ecosystem changes and their drivers in the period of modern environmental change. In 2012, we resampled a set of semi-permanent plots established in 1965. Long-term compositional shifts and biotic homogenization were linked mainly to eutrophication and canopy closure. Ecological groups of nitrophytes and neophytes increased, while assemblages of species characteristic for open woodlands declined. This process can be attributed to several factors including changes in forest management, the rise of the native woody species Tilia cordata, airborne nitrogen input to generally nutrient-poor substrates and subsequent increase of invasive plant species, and finally to increased wildboar density. The decline of the unique communities of open steppic oakwoods will likely continue under the current management, increased nitrogen availability and canopy closure. Although reintroducing the wide range of historical forest uses is not realistic, the removal of Tilia individuals, reduction of the wild boar population and the promotion of Quercus to maintain the open-canopy structure may moderate the shift towards novel communities and help to restore open oakwoods.

Published
2017

13. Bio-Invasions and Bio-Fixes: Mysis Shrimp Introductions in the Twentieth Century

Author

Leif Fredrickson and Péter Szabó

Subjects
0106 biological sciences, History, biology, Ecology, 010604 marine biology & hydrobiology, Geography, Planning and Development, 0211 other engineering and technologies, 021107 urban & regional planning, 02 engineering and technology, Environmental Science (miscellaneous), biology.organism_classification, 01 natural sciences, Shrimp, Fishery, Geography, Arts and Humanities (miscellaneous), Mysis
Abstract

Between 1949 and the 1980s, fisheries managers transplanted the tiny Mysis relicta shrimp into hundreds of lakes and reservoirs in North America and Europe. They hoped to create self-sustaining food for fish. However, most of these experiments failed spectacularly, destroying the fisheries they were intended to bolster. The mysid introductions can be viewed as a 'biological fix', or 'bio-fix', akin to technological fixes. Fixes are solutions to complex social or environmental problems, but the solutions are conceived in an unsystematic and partial way. This makes the solutions appear cheaper and easier than they are and can result in failure and unintended consequences. The mysid introductions illustrate the bio-fix concept. Biological solutions to fisheries problems arose because technological solutions (fertilisation, hatcheries) were impractical or inadequate. Self-reproducing organisms appeared to solve those problems. Changing technology, growing ecological knowledge and the apparently successful introduction of mysids in several lakes made mysid introductions seem cheap, easy and enormously beneficial. But the fervour for mysids masked the many uncertainties and contradictions in knowledge about mysids and their role in ecosystems. Mysids were often not edible by the fish they were intended for. More troublingly, they competed for food with those fish, ultimately causing the collapse of fisheries. Fisheries managers subsequently tried to revive, reassess or reinvigorate large technological solutions, such as dams and fertilisation, to save fisheries, but this was not usually successful.

Published
2017

14. The paradox of long-term ungulate impact: increase of plant species richness in a temperate forest

Author

Radim Hédl, Martin Kopecký, Péter Szabó, Václav Zouhar, Silvie Suchánková, and Ondřej Vild

Subjects
0106 biological sciences, Ungulate, Ecology, Gamma diversity, Endangered species, Species diversity, Vegetation, 15. Life on land, Management, Monitoring, Policy and Law, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Article, Biological dispersal, Ruderal species, Species richness, 010606 plant biology & botany, Nature and Landscape Conservation
Abstract

Questions Did high densities of wild ungulates cause a decline in plant species richness in a temperate oakwood? How did species composition change after nearly five decades? Did ungulates facilitate the spread of ruderal species and supress endangered species? Did dispersal strategies play a role in these processes? Location Krumlov Wood, SE Czech Republic. Methods In 2012, we resampled 58 quasi-permanent vegetation plots first surveyed in 1960s. Between the surveys, 36 plots were enclosed in a game preserve with artificially high density of ungulates (mostly deer, mouflon and wild boar; ca. 55 animals per square km). We analysed the differences in temporal changes between plots inside and outside the game preserve, focusing on species diversity and composition. We assessed species characteristics relevant to grazing to understand compositional changes. Results Ungulates significantly increased alpha and gamma diversity and caused significant vegetation homogenization inside the game preserve. Vegetation homogenization and the increase in species richness resulted from massive enrichment by ruderal species. However, richness of endangered species decreased. Species dispersed by animals internally (endozoochory) increased, while species dispersed externally (epizoochory) or by wind (anemochory) decreased. Conclusions Contrary to our expectations, our long-term data showed that artificially high ungulate densities substantially increased plant species richness. Apparently, the establishment of ruderal herbs was supported by frequent disturbances and ungulate-mediated dispersal. At the same time, species richness of non-ruderal plants did not change, probably because ungulates hindered the regeneration of woody species and maintained an open forest canopy. In conclusion, high ungulate density led to the spread of ruderal species, which in turn strongly contributed to the observed shift towards nutrient-richer conditions and taxonomically more homogenous communities. This article is protected by copyright. All rights reserved.

Published
2017

15. Population and forest dynamics during the Central European Eneolithic (4500-2000 BC)

Author

Helena Svitavská Svobodová, Petr Kuneš, Peter Tkáč, Péter Szabó, Mária Hajnalová, Jan Kolář, and Martin Macek

Subjects
010506 paleontology, Archeology, Population, Drainage basin, 01 natural sciences, Article, law.invention, law, 0601 history and archaeology, Radiocarbon dating, education, 0105 earth and related environmental sciences, education.field_of_study, geography.geographical_feature_category, 060102 archaeology, Land use, Forest dynamics, Ecology, 06 humanities and the arts, Chalcolithic, 15. Life on land, Geography, 13. Climate action, Anthropology, Secondary forest, Climate model
Abstract

The population boom-and-bust during the European Neolithic (7000–2000 BC) has been the subject of lively discussion for the past decade. Most of the research on this topic was carried out with help of summed radiocarbon probability distributions. We aim to reconstruct population dynamics within the catchment of a medium sized lake on the basis of information on the presence of all known past human activities. We calculated a human activity model based on Monte Carlo simulations. The model showed the lowest level of human activity between 4000 and 3000 BC. For a better understanding of long-term socio-environmental dynamics, we also used the results of a pollen-based quantitative vegetation model, as well as a local macrophysical climate model. The beginning of the decline of archaeologically visible human activities corresponds with climatic changes and an increase in secondary forest taxa probably indicating more extensive land use. In addition, social and technological innovations are important, such as the introduction of the ard, wheel, animal traction and metallurgy, as well as changes in social hierarchy characterizing the same period.

Published
2018

16. Using historical ecology to reassess the conservation status of coniferous forests in Central Europe

Author

Petr Kuneš, Radim Hédl, Péter Szabó, Lucie Křížová, Jana Müllerová, Markéta Švarcová, Silvie Suchánková, and Helena Svobodová-Svitavská

Subjects
0106 biological sciences, 010506 paleontology, Ecology, biology, Agroforestry, Picea abies, Potential natural vegetation, Vegetation, 15. Life on land, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Geography, Fagus sylvatica, 13. Climate action, Conservation status, Natura 2000, Beech, Historical ecology, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation
Abstract

Forests cover approximately one-third of Central Europe. Oak (Quercus) and European beech (Fagus sylvatica) are considered the natural dominants at low and middle elevations, respectively. Many coniferous forests (especially of Picea abies) occur primarily at midelevations, but these are thought to have resulted from forestry plantations planted over the past 200 years. Nature conservation and forestry policy seek to promote broadleaved trees over conifers. However, there are discrepancies between conservation guidelines (included in Natura 2000) and historical and palaeoecological data with regard to the distribution of conifers. Our aim was to bring new evidence to the debate on the conservation of conifers versus broadleaved trees at midelevations in Central Europe. We created a vegetation and land-cover model based on pollen data for a highland area of 11,300 km2 in the Czech Republic and assessed tree species composition in the forests before the onset of modern forestry based on 18th-century archival sources. Conifers dominated the study region throughout the entire Holocene (approximately 40-60% of the area). Broadleaved trees were present in a much smaller area than envisaged by current ideas of natural vegetation. Rather than casting doubt on the principles of Central European nature conservation in general, our results highlight the necessity of detailed regional investigations and the importance of historical data in challenging established notions on the natural distribution of tree species.

Published
2016

17. Trends and events through seven centuries: the history of a wetland landscape in the Czech Republic

Author

Radim Hédl, Péter Szabó, Eva Jamrichová, Andrea Gálová, Jan Šipoš, and Kateřina Šumberová

Subjects
010506 paleontology, Global and Planetary Change, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Environmental change, Ecology, Macrofossil, Climate change, Wetland, Ecological succession, Vegetation, 15. Life on land, 01 natural sciences, Article, Ecosystem, Indicator value, 0105 earth and related environmental sciences
Abstract

Environmental change can be viewed as the combined result of long-term processes and singular events. While long-term trends appear to be readily available for observation (in the form of temporal comparisons or space-for-time substitution), it is more difficult to gain information on singular events in the past, although these can be equally significant in shaping ecosystems. We examined the past 700 years in the history of a lowland wetland landscape in the Czech Republic with the help of palaeoecological, ecological, landscape archaeological, and archival data. Macrofossil and pollen data were compared to known drainage works in the area and historical climatological data. Trends and events in habitat conditions were assessed using species indicator values. Results showed that ecological succession was the general process in the study area, detected as a trend towards eutrophication, desiccation, and vegetation closure. Short-term events influenced development at the sites mainly from the second half of the nineteenth century. This is consistent with drainage history, although bias related to sample frequency cannot be excluded. On the whole, long-term trends and discrete events were complementary on different scales. We conclude that humans facilitated and accelerated background processes, which can be most likely associated with the succession of open wetlands towards terrestrial ecosystems.

Published
2016

18. The origin of grasslands in the temperate forest zone of east-central Europe: long-term legacy of climate and human impact

Author

Vojtěch Abraham, Péter Szabó, Jan Kolář, Helena Svobodová-Svitavská, Martin Macek, Peter Tkáč, Mária Hajnalová, and Petr Kuneš

Subjects
0106 biological sciences, 010506 paleontology, Archeology, Global and Planetary Change, biology, Ecology, Temperate forest, Geology, Woodland, Vegetation, 15. Life on land, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Arid, Article, Deciduous, Geography, Hornbeam, Climate model, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences
Abstract

The post-glacial fate of central European grasslands has stimulated palaeoecological debates for a century. Some argued for the continuous survival of open land, while others claimed that closed forest had developed during the Middle Holocene. The reasons behind stability or changes in the proportion of open land are also unclear. We aim to reconstruct regional vegetation openness and test the effects of climate and human impact on vegetation change throughout the Holocene. We present a newly dated pollen record from north-western fringes of the Pannonian Plain, east-central Europe, and reconstruct Holocene regional vegetation development by the REVEALS model for 27 pollen-equivalent taxa. Estimated vegetation is correlated in the same area with a human activity model based on all available archaeological information and a macrophysical climate model. The palaeovegetation record indicates the continuous presence of open land throughout the Holocene. Grasslands and open woodlands were probably maintained by local arid climatic conditions during the early Holocene delaying the spread of deciduous (oak) forests. Significantly detectable human-made landscape transformation started only after 2000 BC. Our analyses suggest that Neolithic people spread into a landscape that was already open. Humans probably contributed to the spread of oak, and influenced the dynamics of hazel and hornbeam.

Published
2015

19. Historical ecology: past, present and future

Author

Péter Szabó

Subjects
Ecology, Ecology (disciplines), Multitude, Umbrella term, Environmental ethics, 15. Life on land, General Biochemistry, Genetics and Molecular Biology, Interconnectedness, Geography, Historical geography, Environmental history, General Agricultural and Biological Sciences, Discipline, Historical ecology
Abstract

The term 'historical ecology' has been used with various meanings since the first half of the 20th century. Studies labelled as historical ecology have been produced in at least four academic disciplines: history, ecology, geography and anthropology. Although all those involved seem to agree that historical ecology concerns the historical interconnectedness of nature and human culture, this field of study has no unified methodology, specialized institutional background and common publication forums. Knowledge of the development of historical ecology is also limited. As a result, the current multitude of definitions of historical ecology is accompanied by divergent opinions as to where the origins of the field are to be sought. In this review, I follow the development of historical ecology from the 18th century to the present. In the first part, I briefly describe some early examples of historical ecological investigations, followed by a description of the various scientific strands in the 20th century that contributed to the formation of historical ecology. In the second part, I discuss the past five decades of historical ecological investigations in more detail, focusing mostly (but not exclusively) on works that their respective authors identified as historical ecology. I also examine the appearance and interconnectedness of the two main trends (ecological and anthropological) in historical ecological research. In the last part, I attempt to outline the future of historical ecology based on common features in existing research. It appears that at present historical ecology is at a crossroads. With rapidly growing interest in historical ecological research, it may move towards institutionalization or remain an umbrella term.

Published
2014

20. Socio-Economic Demands, Ecological Conditions and the Power of Tradition: Past Woodland Management Decisions in a Central European Landscape

Author

Radim Hédl and Péter Szabó

Subjects
Ecology, Wood pasture, Geography, Planning and Development, Woodland, Vegetation, Management, Monitoring, Policy and Law, Coppicing, Geography, Abundance (ecology), Landscape history, Productivity, Historical ecology, Nature and Landscape Conservation, General Environmental Science
Abstract

Humans have managed European landscapes, including woodlands, for millennia. Prior to the birth of modern forestry in the eighteenth and nineteenth centuries, there existed two basic management forms for lowland broadleaved woods: coppicing and wood pasture. While the existence and characteristics of these two basic management types are well-known, the reasons why particular woods were coppiced while others pastured are little investigated. As a case-study, we chose two large ancient woods in the southern Moravian region of Central Europe. One was managed as coppice, while the other as wood pasture for most of their histories. The woods are similar in size, location, climate and vegetation. We examined several potential explanations (terrain morphology, soil productivity, abundance of woodland, ownership and economy) for past management decisions in these woods. We found that the links between soil productivity, economic demands and ownership were of key importance. Other factors were less signif...

Published
2013

21. Non-random extinctions dominate plant community changes in abandoned coppices

Author

Radim Hédl, Martin Kopecký, and Péter Szabó

Subjects
0106 biological sciences, Extinction, Ecology, Forest management, Endangered species, Beta diversity, Biodiversity, Species diversity, Plant community, 15. Life on land, Biology, 010603 evolutionary biology, 01 natural sciences, Article, Nestedness, 010606 plant biology & botany
Abstract

Summary The plant community structure of European lowland forests has changed dramatically in the twentieth century, leading to biodiversity decline at various spatial scales. However, due to methodological difficulties associated with simultaneous changes in species diversity and composition, ecological processes behind the changes are still poorly understood. We analysed temporal changes in forest plant community after the mid-twentieth-century abandonment of coppicing in a typical Central European forest, which had been managed as coppice for centuries. We used 122 semi-permanent plots first surveyed in the 1950s shortly after the last coppicing and again in the 2000s after half a century of natural succession. We used a novel temporal nestedness analysis to disentangle the immigration and extinction processes underlying temporal changes in community structure and tested whether species gains and losses were ecologically random. The studied vegetation has shifted from the species-rich assemblages of a relatively open and low-nutrient forest towards the impoverished flora of a closed-canopy forest dominated by a few shade-adapted species. The significant reduction in beta diversity, that is, compositional heterogeneity among plots, indicated taxonomic homogenization of the forest understorey. Temporal species turnover was only a minor component of the community change, and recent assemblages are nested subsets of the former ones. Ecologically non-random extinctions dominated these changes. Light-demanding species with a persistent seed bank were the most prone to extinction, while species with high specific leaf area substantially increased in frequency. Synthesis and applications. The dominant process after the abandonment of coppicing was the ecologically non-random extinction of light-demanding species, leading to an impoverished, temporally nested plant community structure. This development is typical for many abandoned coppices and poses a significant threat to forest biodiversity in Europe. If forestry and conservation policies continue to prefer closed-canopy stands, many endangered species are likely to pay their extinction debts. To restore declining or even locally extinct species, canopy opening in abandoned coppices is urgently needed.

Published
2012

22. Continuity and change in the vegetation of a Central European oakwood

Author

Eva Jamrichová, Péter Szabó, Přemysl Bobek, Radim Hédl, Petr Kuneš, and Barbora Pelánková

Subjects
0106 biological sciences, Palynology, Ecological stability, 010506 paleontology, Archeology, Global and Planetary Change, Ecology, Paleontology, Vegetation composition, Vegetation, Woodland, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Archaeology, Deciduous, Geography, Paleoecology, Historical ecology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

The issue of continuity in deciduous oakwood vegetation has been in the forefront of woodland ecological studies for many decades. The two basic questions that emerge from existing research are whether or not oakwoods can be characterized by long-term stability and what may be the driving forces of the observed stability or change. To answer these questions in a well-defined case study, we examined the history of a large subcontinental oakwood (Dúbrava) in the southeastern Czech Republic with interdisciplinary methods using palaeoecological and archival sources. Palaeoecology allowed us to reconstruct the vegetation composition and fire disturbances in Dúbrava in the past 2000 years, while written sources provided information about tree composition and management from the 14th century onwards. The pollen profiles show that the present oakwood was established in the mid-14th century with an abrupt change from shrubby, hazel-dominated vegetation to oak forest. This change was most probably caused by a ban on oak felling in ad 1350. From the 14th to the late 18th centuries Dúbrava had multiple uses, of which wood-pasture and hay-cutting kept the forest considerably open. The second remarkable change was dated to the late 18th century, when multiple-use management was abandoned and Dúbrava was divided into pasture-only and coppice-only parts. The last major shift occurred in the mid-19th century, when modern forestry and Scotch pine plantation became dominant. We conclude that Dúbrava Wood did not show stability in the long run and that its species composition has dramatically changed during the last two millennia. The most important driving force in the shaping and maintenance of the unique vegetation of Dúbrava was human management.

Published
2012

23. Advancing the Integration of History and Ecology for Conservation

Author

Radim Hédl and Péter Szabó

Subjects
Functional ecology, Ecology, Applied ecology, Ecology (disciplines), Systems ecology, Biology, Environmental history, Historical ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation
Abstract

The important role of humans in the development of current ecosystems was recognized decades ago; however, the integration of history and ecology in order to inform conservation has been difficult. We identified four issues that hinder historical ecological research and considered possible solutions. First, differences in concepts and methods between the fields of ecology and history are thought to be large. However, most differences stem from miscommunication between ecologists and historians and are less substantial than is usually assumed. Cooperation can be achieved by focusing on the features ecology and history have in common and through understanding and acceptance of differing points of view. Second, historical ecological research is often hampered by differences in spatial and temporal scales between ecology and history. We argue that historical ecological research can only be conducted at extents for which sources in both disciplines have comparable resolutions. Researchers must begin by clearly defining the relevant scales for the given purpose. Third, periods for which quantitative historical sources are not easily accessible (before AD 1800) have been neglected in historical ecological research. Because data from periods before 1800 are as relevant to the current state of ecosystems as more recent data, we suggest that historical ecologists actively seek out data from before 1800 and apply analytic methods commonly used in ecology to these data. Fourth, humans are not usually considered an intrinsic ecological factor in current ecological research. In our view, human societies should be acknowledged as integral parts of ecosystems and societal processes should be recognized as driving forces of ecosystem change. Resumen: El papel importante de los humanos en el desarrollo de los ecosistemas actuales fue reconocido hace decadas; sin embargo, la integracion de la historia y la ecologia para poder informar a la conservacion ha sido dificil. Identificamos 4 temas que limitan la investigacion ecologica historica y consideramos posibles soluciones. Primero, se piensa que las diferencias en conceptos y metodos entre campos de la ecologia y la historia son grandes. Sin embargo, la mayoria de las diferencias se derivan de la falta de comunicacion entre ecologos e historiadores y son menos sustanciales de los que generalmente se piensa. La cooperacion es posible mediante el enfoque en atributos que la ecologia y la historia tienen en comun y mediante el entendimiento y aceptacion de puntos de vista diferentes. Segundo, la investigacion ecologica historica a menudo es obstaculizada por diferencias en escalas espaciales y temporales entre la ecologia e historia. Argumentamos que la investigacion ecologica historica solo puede ser desarrollada en extensiones para las que fuentes en ambas disciplinas tienen resoluciones comparables. Los investigadores deben comenzar por definir claramente las escalas relevantes para el proposito determinado. Tercero, los periodos para los que no hay fuentes historicas cuantitativas facilmente accesibles (antes de 1800 AD) han sido desatendidos en la investigacion ecologica historica. Debido a que datos de periodos previos a 1800 son tan relevantes para el estado actual de los ecosistemas como los datos actuales, sugerimos a los ecologos historiadores que busquen datos previos a 1800 y les apliquen metodos analiticos utilizados comunmente. Cuarto, los humanos generalmente no son considerados un factor ecologico intrinseco en la investigacion ecologica en curso. Desde nuestra perspectiva, las sociedades humanas deben ser reconocidas como parte integral de los ecosistemas y los procesos sociales deben ser reconocidos como fuerzas conductoras del cambio en los ecosistemas.

Published
2011

24. Why history matters in ecology: an interdisciplinary perspective

Author

Péter Szabó

Subjects
Ecology, Health, Toxicology and Mutagenesis, Ecology (disciplines), Perspective (graphical), Context (language use), Management, Monitoring, Policy and Law, Biology, Pollution, Interconnectedness, Environmental social science, Natural (music), Historical ecology, Nature and Landscape Conservation, Water Science and Technology, Interdisciplinarity
Abstract

SUMMARYIn recent decades, the interconnectedness of history and ecology has received increasing attention. Although necessarily interdisciplinary, efforts to study this interconnectedness had their roots either in the humanities and social sciences or in the natural sciences: scholars have tried either to understand more about nature with the help of history, or, about human history with the help of natural phenomena. As a result, theoretical studies about the integration of ecology and history try to answer two relatively distinct questions: ‘why ecology matters in history’ and ‘why history matters in ecology’. This paper sets out to systematize current knowledge on the latter question and to highlight those issues that have so far received less attention. The arguments can be grouped into three major themes. First, history matters in ecology because it aids understanding of current patterns and processes in nature. Second, because it fosters better informed management and policy decisions; and third, because it places ecology and conservation in a wider interdisciplinary context. Besides dealing with the perspectives of ecologists and conservationists, this paper also includes material from historians, anthropologists and archaeologists, that is, from scholars whose primary interest does not lie in ecological investigations, but who have, nonetheless, embraced the need for the integration of ecology and history.

Published
2010

25. Driving forces of stability and change in woodland structure: A case-study from the Czech lowlands

Author

Péter Szabó

Subjects
Czech, Driving factors, Ecology, Forest management, Forestry, Woodland, Management, Monitoring, Policy and Law, Firewood, language.human_language, Coppicing, Geography, Forest ecology, language, Economic geography, Historical ecology, Nature and Landscape Conservation
Abstract

This paper presents how long-term socioeconomic processes influenced the management and structure of a lowland ancient wood in the south-eastern Czech Republic from the 14th century to the present. The analysis draws on a wide range of historical documents to establish that the size, management and structure of Děvin Wood was remarkably stable throughout the study period except for the last 60 years. It is argued, however, that the long-term stability of woodland management and structure contrasts with the multiple changes that can be observed in the driving forces behind this stability. Four kinds of driving forces are distinguished (business, need for firewood, nature conservation and forestry policy), whose various combinations maintained the coppice structure of the Wood for six centuries. It is concluded that landscape ‘stability’ and ‘change’ are highly context-dependent, and that socioeconomic driving factors are a crucial link between forest ecology and history, representing a means to understand and control current ecosystems and future changes. The paper also demonstrates that in European historical ecology it is necessary to integrate qualitative and quantitative sources in order to study periods before ca. 1800 AD, i.e. the appearance of modern quantitative sources, because societal processes have exerted their influence on landscapes much longer than 200 years.

Published
2010

26. Open woodland in Europe in the Mesolithic and in the Middle Ages: Can there be a connection?

Author

Péter Szabó

Subjects
Herbivore, geography, geography.geographical_feature_category, Ecology, Forestry, Woodland, Vegetation, Management, Monitoring, Policy and Law, Biology, Old-growth forest, Forest ecology, Paleoecology, Historical ecology, Mesolithic, Nature and Landscape Conservation
Abstract

In Grazing Ecology and Forest History F.W.M. Vera published his hypothesis that Europe's primeval vegetation was not closed forest but a more open, park-like landscape maintained by the grazing of large herbivores. The palaeoecological evidence has been re-examined a number of times, however, Vera's research and conclusions about more recent periods (ca. 500–1900 a.d. ) have so far been neglected. These, nonetheless, are equally significant elements in the testing of the hypothesis, and deserve to be evaluated. It is argued in this paper that historical sources could be used in testing the hypothesis; however, analysis should concentrate on particular areas and periods and derive a synthesis from these. Vera mixes sources from many regions and periods in the same analysis, which therefore does not provide useful information about the hypothesis. Furthermore, Vera's analysis is based on the assumption that early medieval written sources depict a landscape that is in direct connection with the pre-Neolithic open vegetation, although in some early medieval landscapes domestic animals replaced the original large herbivores. He also claims that medieval coppices were formed straight out of this primeval vegetation. However, current landscape archaeological research shows that areas unaffected by human activity were virtually non-existent in the European lowlands by the Early Middle Ages, therefore early medieval Royal Forests and high medieval coppices were not formed out of primeval ‘wilderness.’ Because there is no direct connection between pre-Neolithic and medieval landscapes – although they can be analogous – the historical ecological evidence in Grazing Ecology and Forest History is irrelevant to the hypothesis. The hypothesis could only be tested if it were first proved that at a particular place the pre-Neolithic vegetation survived until the Early Middle Ages.

Published
2009

27. Ideal free distribution of metabolic activity: Implications of seasonal metabolic-activity patterns on competitive coexistence

Author

Péter Szabó

Subjects
0106 biological sciences, media_common.quotation_subject, Population, Biology, Environment, 010603 evolutionary biology, 01 natural sciences, Models, Biological, Competition (biology), Species Specificity, Humans, education, Social Behavior, Ecology, Evolution, Behavior and Systematics, Ecosystem, media_common, Coexistence theory, education.field_of_study, Ideal free distribution, Ecology, Niche segregation, Interspecific competition, 010601 ecology, Trait, Seasons, Metabolic activity
Abstract

The seasonal distribution of metabolic activity determines how much individuals experience different aspects of a periodically changing environment. Seasonal metabolic-activity patterns of coexisting species may differ significantly despite their shared environmental conditions, suggesting that interspecific diversification of this trait has a major role in the coexistence of competing species. In the present study the effect of the seasonal distribution of metabolic activity on intra- and interspecific competition is investigated in a consumer–resource model. It is shown that, in a periodically changing environment, for each environmental preference pattern there is an ideal seasonal distribution of metabolic activity, which results in maximum resource utilisation efficiency and competitive superiority. Contrary to the common interpretation of temporal niche segregation, opposing species-specific seasonal preferences are not a sufficient condition for the coexistence of two species on a population dynamical time scale. A necessary and sufficient condition for coexistence is the temporal segregation of the species via different seasonal activity distributions. However, coexistence is evolutionarily stable only if seasonal metabolic activities and preferences are positively correlated.

Published
2015

28. Intensive woodland management in the Middle Ages: spatial modelling based on archival data

Author

Silvie Suchánková, Martin Kotačka, Péter Szabó, and Jana Müllerová

Subjects
Archeology, History, Wood production, Ecology, Agroforestry, business.industry, Geography, Planning and Development, Forest management, Distribution (economics), Vegetation, Woodland, 15. Life on land, Firewood, Article, Prehistory, Coppicing, Geography, business
Abstract

Firewood played an indispensable role in European socio-economic systems from prehistory until the nineteenth century. Recent research has shown that in European temperate lowlands the most important management form to produce firewood was coppicing. In spite of the growing body of research on traditional woodland management, there remain large gaps in knowledge. Detailed studies of individual sites or smaller areas have provided a wealth of information on the methods of medieval coppicing, and at such sites the long-term effects of coppicing on vegetation structure and composition have also been examined. However, little is known about the distribution and extent of coppicing at the landscape scale, and forming a coherent picture of the spatial extent rather than the management details of coppicing in larger regions remains a challenge. This paper investigates the distribution and extent of coppice management in Moravia (eastern Czech Republic, ca. 22,300 km2) in the Late Middle Ages. We created an extensive database of written sources that contained information on the presence of coppice woods at the parish level. Subsequently we used the MAXENT algorithm to create a model of the distribution of coppicing over the entire area. With the help of wood production and consumption estimates, we also calculated the minimum area of managed woodland for the study period. Results show that coppicing was predominant in the lowlands and often occurred at higher elevations as well, where neither natural conditions nor tree species composition were favourable. The paper also highlights the potential of spatial models based on archival data for historical landscape reconstructions.

Published
2015

29. The rise and fall of traditional forest management in southern Moravia: A history of the past 700 years

Author

Jana Müllerová, Péter Szabó, and Radim Hédl

Subjects
Agroforestry, Ecology, Abandonment (legal), Forest management, Forestry, 15. Life on land, Management, Monitoring, Policy and Law, Article, Coppicing, Diversity index, Geography, Topographic gradient, Forest ecology, Spatial ecology, Productivity, Nature and Landscape Conservation
Abstract

European broadleaved forests have been influenced by humans for centuries. Historical management practices are related to environmental conditions but the role of socio-economic factors is also important. For the successful restoration of traditional management for conservation purposes, detailed knowledge on management history and on the driving forces of historical forest changes is necessary. In order to reconstruct long-term spatio-temporal dynamics in forest management, we chose the Palava Protected Landscape Area, Czech Republic and analyzed archival sources spanning the past seven centuries. Forests in the study area comprise two relatively large woods (Děvin and Milovice) with different environmental conditions. Historical forest management in both woods was coppicing. The coppice cycle was lengthened from 7 years (14th century) to more than 30 years (19th century) with a fluctuating density of standards. After WWII, coppicing was completely abandoned. This led to pronounced changes in forest age structure accompanied by stand unification indicated by a sharp decrease in the Shannon index of age diversity. To study local attributes responsible for spatial patterns in coppice abandonment, we constructed a regression model with the date of abandonment as a dependent variable and three groups of explanatory variables: (i) remoteness of forest parcels, (ii) morphometric environmental factors and (iii) site productivity. In Děvin Wood, coppicing was abandoned gradually with the pattern of abandonment related significantly to slope steepness and forest productivity. Poorly accessible upper slopes and low productive forest sites were abandoned earlier. By contrast, in Milovice Wood, where no clear topographic gradient is present, the abandonment of coppicing was not related to any of the variables we studied. Our study brings insights into the history and consequences of past management practices, and can be used in current attempts to re-establish coppice management for conservation purposes and as a source of sustainable energy.

Published
2014
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30. Grappling with Interdisciplinary Research: Response to Pooley

Author

Péter Szabó and Radim Hédl

Subjects
0106 biological sciences, Ecology, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Constructive, Epistemology, Categorization, Sociology, business, Medieval studies, Discipline, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation
Abstract

We were glad to read Pooley’s (2013) comments on our earlier paper (Szabo & Hedl 2011) and welcome this opportunity to further discuss some important issues we could not elaborate on in that paper. Although we concur with Pooley on many points, let us start with a clarification. It may be generally true that “previous calls for cooperation between historians and conservation scientists published in ecological and conservation journals have been made by nonhistorians” (Pooley 2013), but it is certainly not true in our case. One of us is a historian with a PhD in medieval studies, the other is a vegetation ecologist. We believe our work benefited from fruitful discussions between two authors who saw the topic from often opposing perspectives. Nonetheless, we have our doubts whether disciplinary categorization is constructive when used as the basis for evaluating an individual researcher’s point of view.

Published
2013

31. Anthropological contributions to historical ecology: 50 questions, infinite prospects

Author

Anneli Ekblom, Anna Shoemaker, Paul Sinclair, Oliver Boles, Iain McKechnie, Chelsey Geralda Armstrong, Paul Lane, Aleksandra Ibragimow, Eréndira M. Quintana Morales, Carly Nabess, Kevin Gibbons, Alex C. McAlvay, Tony Marks-Block, Sākihitowin Awâsis, Carole L. Crumley, Nik Petek, Eugene N Anderson, Sarah Walshaw, Jana C. Vamosi, Péter Szabó, Joyce K LeCompte, Grzegorz Podruczny, Lane, Paul [0000-0002-9936-1310], Apollo - University of Cambridge Repository, and Parmakelis, Aristeidis

Subjects
0106 biological sciences, Atmospheric Science, History, 010504 meteorology & atmospheric sciences, Cultural anthropology, Social Sciences, lcsh:Medicine, 01 natural sciences, Historical Archaeology, Spatial and Landscape Ecology, Medicine, Applied research, Arkeologi, lcsh:Science, History, Ancient, Climatology, Multidisciplinary, Ecology, Historical Article, Biodiversity, 21st Century, Variety (cybernetics), 20th Century, Community Ecology, Archaeology, Research Design, Historical ecology, Medieval, Research Article, Natural History, Canada, Resource (biology), General Science & Technology, Climate Change, Ecology (disciplines), Crowdsourcing, History, 21st Century, 010603 evolutionary biology, Ecosystems, Ancient, Cultural, Humans, Anthropology, Cultural, Ecosystem, 0105 earth and related environmental sciences, Sweden, business.industry, Ecology and Environmental Sciences, lcsh:R, Biology and Life Sciences, Paleontology, Environmental ethics, History, 20th Century, 15. Life on land, Historical Ecology, History, Medieval, 13. Climate action, Anthropology, Earth Sciences, lcsh:Q, Paleoecology, Paleobiology, business
Abstract

This paper presents the results of a consensus-driven process identifying 50 priority research questions for historical ecology obtained through crowdsourcing, literature reviews, and in-person workshopping. A deliberative approach was designed to maximize discussion and debate with defined outcomes. Two in-person workshops (in Sweden and Canada) over the course of two years and online discussions were peer facilitated to define specific key questions for historical ecology from anthropological and archaeological perspectives. The aim of this research is to showcase the variety of questions that reflect the broad scope for historical-ecological research trajectories across scientific disciplines. Historical ecology encompasses research concerned with decadal, centennial, and millennial human-environmental interactions, and the consequences that those relationships have in the formation of contemporary landscapes. Six interrelated themes arose from our consensus-building workshop model: (1) climate and environmental change and variability; (2) multi-scalar, multi-disciplinary; (3) biodiversity and community ecology; (4) resource and environmental management and governance; (5) methods and applications; and (6) communication and policy. The 50 questions represented by these themes highlight meaningful trends in historical ecology that distill the field down to three explicit findings. First, historical ecology is fundamentally an applied research program. Second, this program seeks to understand long-term human-environment interactions with a focus on avoiding, mitigating, and reversing adverse ecological effects. Third, historical ecology is part of convergent trends toward transdisciplinary research science, which erodes scientific boundaries between the cultural and natural.

Published
2017

32. LONGWOOD: integrating woodland history and ecology in a geodatabase through an interdisciplinary approach

Author

Jana Müllerová, Martin Macek, Martin Kopecký, and Péter Szabó

Subjects
Geography, Land use, Ecology, business.industry, Spatial database, Ecology (disciplines), Elevation, Distribution (economics), Woodland, Scale (map), business, Article, Holocene
Abstract

Forests in Europe have been shaped considerably by human activities during most of the Holocene. Changes in forest structure, distribution of tree species and forest biodiversity are partly driven by management history, and many current forest types result from former management. The interdisciplinary project "Long-term woodland dynamics in Central Europe: from estimations to a realistic model" (LONGWOOD) aims to reconstruct long-term dynamics of woodland cover, structure and management in the eastern Czech Republic (Moravia, ca. 27,000 km2), compare the historical and present state of forests, and analyze general patterns of changes and stability of woodlands as well as the role of humans in these processes. In the LONGWOOD project, palaeoecological, archaeological, historical and ecological sources of information on woodland cover, species composition, and human activities (management, settlement density) over the past 7500 years are collected and integrated in the form of a geodatabase. Combining data of different origin, scale, degree of spatial precision and detail into a single geodatabase is a challenging task. The level of detail, information content, and spatio-temporal distribution of data varies between layers as well as individual records according to the nature of the data source and the data itself. The limited and incomplete sources of information until ca. 1100 AD provide a coarser view on forest history while the historical period (especially the past ca. 250 years) is covered by large amounts of precisely located ecological and historical data enabling detailed spatial and temporal analyses. Data on forest structure, history and management will be related to environmental factors (soil type, climate, elevation and other topographic variables derived from DEM) and social historical data (settlement distribution, population density, landuse). A spatio-temporal forest landscape model will be built to assess the forest changes and the main drivers of change.

Published
2013

33. Trees, Forested Landscapes and Grazing Animals

Author

Helen Shaw, Dries Kuijper, Harald Schaich, Stephen Hall, Elena Cantarello, Péter Szabó, Tobias Plieninger, and Thanasis` Kizos

Subjects
Herbivore, Geography, Ecology, Agroforestry, Ecology (disciplines), Grazing, Perspective (graphical), Woodland, Historical ecology, Landscape dynamics
Abstract

In this comprehensive book, the critical components of the European landscape – forest, parkland, and other grazed landscapes with trees are addressed. The book considers the history of grazed treed landscapes, of large grazing herbivores in Europe, and the implications of the past in shaping our environment today and in the future. Debates on the types of anciently grazed landscapes in Europe, and what they tell us about past and present ecology, have been especially topical and controversial recently. This treatment brings the current discussions and the latest research to a much wider audience. The book breaks new ground in broadening the scope of wood-pasture and woodland research to address sites and ecologies that have previously been overlooked but which hold potential keys to understanding landscape dynamics. Eminent contributors, including Oliver Rackham and Frans Vera, present a text which addresses the importance of history in understanding the past landscape, and the relevance of historical ecology and landscape studies in providing a future vision.

Published
2013

34. Sources and methods to reconstruct past masting patterns in European oak species

Author

Péter Szabó

Subjects
040101 forestry, 0106 biological sciences, Java, Ecology, 04 agricultural and veterinary sciences, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Article, Geography, Forest ecology, 0401 agriculture, forestry, and fisheries, Mast (botany), Physical geography, Agronomy and Crop Science, computer, Historical ecology, computer.programming_language
Abstract

The irregular occurrence of good seed years in forest trees is known in many parts of the world. Mast year frequency in the past few decades can be examined through field observational studies; however, masting patterns in the more distant past are equally important in gaining a better understanding of long-term forest ecology. Past masting patterns can be studied through the examination of historical written sources. These pose considerable challenges, because data in them were usually not recorded with the aim of providing information about masting. Several studies examined masting in the deeper past, however, authors hardly ever considered the methodological implications of using and combining various source types. This paper provides a critical overview of the types of archival written that are available for the reconstruction of past masting patterns for European oak species and proposes a method to unify and evaluate different types of data. Available sources cover approximately eight centuries and can be put into two basic categories: direct observations on the amount of acorns and references to sums of money received in exchange for access to acorns. Because archival sources are highly different in origin and quality, the optimal solution for creating databases for past masting data is a three-point scale: zero mast, moderate mast, good mast. When larger amounts of data are available in a unified three-point-scale database, they can be used to test hypotheses about past masting frequencies, the driving forces of masting or regional masting patterns.

Published
2013
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35. Eco-morphological studies on pleopodal lungs and cuticle in Armadillidium species (Crustacea, Isopoda, Oniscidea)

Author

Elisabeth Hornung, Polona Mrak, Péter Szabó, Jasna Štrus, Diána Csonka, and Katalin Halasy

Subjects
Armadillidium vulgare, Male, Hungary, biology, Ecology, Armadillidium nasatum, fungi, General Medicine, Environment, biology.organism_classification, Generalist and specialist species, Crustacean, Adaptation, Physiological, Armadillidium, Isopoda, Habitat, Species Specificity, Insect Science, Hemolymph, Animals, Desiccation, Lung, Ecology, Evolution, Behavior and Systematics, Developmental Biology
Abstract

Terrestrial isopods (Crustacea, Isopoda, Oniscidea) have adapted to land life by diverse morphological, physiological and behavioral changes. Woodlice species exhibit a large variety in this respect, their preferences ranging from moist to dry habitats. These moisture preference values are related to various morphological adaptations, rendering terrestrial isopods amenable to studying morphological adaptations to terrestrial life. We performed a comparison of four Armadillidium species (Armadillidium zenckeri, Armadillidium nasatum, Armadillidium versicolor, Armadillidium vulgare), by quantifying two morphological traits: the extent of the interfacial endothelium between the respiratory space and the hemolymph within pleopodal lungs and the thickness of tergite cuticle, which are 'key factors' in determining protection from desiccation. These values were measured from light micrographs of cross-sectioned lungs. The cosmopolitan A. vulgare, as a habitat generalist, seems to be the most resistant against desiccation and other environmental conditions, while A. zenckeri is the most sensitive one. Light microscopic studies revealed that the four species can be ordered similarly, if we compare them by the extension of the endothelial interface and cuticle thickness, suggesting that these morphological traits are important determinants of their distribution on habitat, microhabitat scales and through the existence of suitable habitats - together with many other factors - the geographical pattern of species occurence.

Published
2012

36. Tree-Rings Mirror Management Legacy: Dramatic Response of Standard Oaks to Past Coppicing in Central Europe

Author

Martin Kopecký, Jana Müllerová, Radim Hédl, Petr Mazůrek, Vladan Riedl, Péter Szabó, Jan Altman, and Jiří Doležal

Subjects
Conservation of Natural Resources, Tilia platyphyllos, Science, media_common.quotation_subject, education, Forest management, Plant Science, Woodland, Competition (biology), Trees, Quercus, Coppicing, Plant-Environment Interactions, Forest ecology, Dendrology, Dendrochronology, Spatial and Landscape Ecology, Ecosystem, Biology, Conservation Science, media_common, Plant Growth and Development, Multidisciplinary, Ecology, Population Biology, biology, Plant Ecology, Botany, Agriculture, Forestry, Plants, biology.organism_classification, Europe, Medicine, Population Ecology, Research Article
Abstract

BackgroundCoppicing was one of the most important forest management systems in Europe documented in prehistory as well as in the Middle Ages. However, coppicing was gradually abandoned by the mid-20(th) century, which has altered the ecosystem structure, diversity and function of coppice woods.Methodology/principal findingsOur aim was to disentangle factors shaping the historical growth dynamics of oak standards (i.e. mature trees growing through several coppice cycles) in a former coppice-with-standards in Central Europe. Specifically, we tried to detect historical coppicing events from tree-rings of oak standards, to link coppicing events with the recruitment of mature oaks, and to determine the effects of neighbouring trees on the stem increment of oak standards. Large peaks in radial growth found for the periods 1895-1899 and 1935-1939 matched with historical records of coppice harvests. After coppicing, the number of newly recruited oak standards markedly grew in comparison with the preceding or following periods. The last significant recruitment of oak standards was after the 1930s following the last regular coppicing event. The diameter increment of oak standards from 1953 to 2003 was negatively correlated with competition indices, suggesting that neighbouring trees (mainly resprouting coppiced Tilia platyphyllos) partly suppressed the growth of oak standards. Our results showed that improved light conditions following historical coppicing events caused significant increase in pulses of radial growth and most probably maintained oak recruitment.Conclusions/significanceOur historical perspective carries important implications for oak management in Central Europe and elsewhere. Relatively intense cutting creating open canopy woodlands, either as in the coppicing system or in the form of selective cutting, is needed to achieve significant radial growth in mature oaks. It is also critical for the successful regeneration and long-term maintenance of oak populations.

Published
2013

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