@CONFERENCE{MTMT:35337414, title = {Evaluating the Potential for Climate Change Mitigation through Doubling the Area of Windbreak Plantations in Hungary}, url = {https://m2.mtmt.hu/api/publication/35337414}, author = {Király, Éva Ilona and Borovics, Attila}, booktitle = {Proceedings of the 4th International Electronic Conference on Forests}, unique-id = {35337414}, year = {2024} } @misc{MTMT:35310857, title = {Adaptive forest management in xeric limit (Alkalmazkodást segítő erdőgazdálkodás a szárazsági erdőhatáron). Előadás. EU Erdészeti Főigazgatók Találkozója. Lakitelek. 2024. szeptember 10.}, url = {https://m2.mtmt.hu/api/publication/35310857}, author = {Borovics, Attila}, unique-id = {35310857}, year = {2024} } @misc{MTMT:35310785, title = {Increasing the importance of forestry and wood sector in climate change mitigation (Az erdészeti és faanyag feldolgozási ágazat szerepének növelése az éghajlatváltozás mérséklésében). Előadás. EU Erdészeti Főigazgatók Találkozója. Lakitelek. 2024. szeptember 10.}, url = {https://m2.mtmt.hu/api/publication/35310785}, author = {Király, Éva Ilona and Borovics, Attila}, unique-id = {35310785}, year = {2024} } @article{MTMT:35175632, title = {Climate change mitigation potentials of wood industry related measures in Hungary}, url = {https://m2.mtmt.hu/api/publication/35175632}, author = {Király, Éva Ilona and Forsell, Nicklas and Schulte, Maximilian and Kis-Kovács, Gábor and Börcsök, Zoltán and Kocsis, Zoltán and Kottek, Péter and Mertl, Tamás and Németh, Gábor and Polgár, András and Borovics, Attila}, doi = {10.1007/s11027-024-10161-1}, journal-iso = {MITIG ADAPT STRAT GLOB CHANGE}, journal = {MITIGATION AND ADAPTATION STRATEGIES FOR GLOBAL CHANGE}, volume = {29}, unique-id = {35175632}, issn = {1381-2386}, abstract = {Harvested wood products (HWPs) store a significant amount of carbon while long-lived products and wooden buildings can be among the most effective means for carbon storage. Wood products’ lifetime extension and appropriate waste management, recycling, and reuse can further contribute to the achievement of climate goals. In our study we projected under 10 different scenarios the carbon storage, carbon dioxide and methane emissions of the Hungarian HWP pool up to 2050 in order to find the combination of wood industry-related measures with the highest climate change mitigation effect. For the projection we used the country-specific HWP-RIAL model to predict emissions associated with the end-of-life and waste management of wood products. The main conclusion is that without additional measures the Hungarian HWP pool would turn from a carbon sink to a source of emissions by 2047. To maintain the Hungarian HWP pool to be a continuous carbon sink it is essential to implement additional climate mitigation measures including cascading product value chains, and approaches of a circular bioeconomy. We find the most effective individual measures are increasing product half-life, increasing recycling rate and increasing industrial wood production through increased industrial wood assortments and increased harvest. With the combination of these measures a maximum average annual climate change mitigation potential of 1.5 Mt CO 2 equivalents could be reached during the 2022–2050 period.}, year = {2024}, eissn = {1573-1596} } @article{MTMT:35149215, title = {What we know about Turkey oak (Quercus cerris L.) - from evolutionary history to species ecology}, url = {https://m2.mtmt.hu/api/publication/35149215}, author = {Lados, Botond Boldizsár and Benke, Attila and Borovics, Attila and Köbölkuti, Zoltán Attila and Molnár, Csilla and Nagy, László and Tóth, Endre György and Cseke, Klára}, doi = {10.1093/forestry/cpae035}, journal-iso = {FORESTRY}, journal = {FORESTRY}, volume = {97}, unique-id = {35149215}, issn = {0015-752X}, abstract = {Turkey oak (Quercus cerris L.) is a deciduous tree species of the genus Quercus section Cerris (Fagaceae), widely distributed in Europe and Asia Minor. Throughout its vast distribution range, the species carries high phenotypic and genetic variability. Due to its high drought tolerance, Turkey oak may have great potential to be a key tree species in Central and Western Europe under climate change conditions. However, more detailed information on its phylogeny, phylogeography, phenotypic, and genetic variability is still needed for a more careful and reliable assessment of the species' adaptation potential. To this end, based on 41 reviewed articles, we collected detailed information to support the evaluation of Turkey oak's adaptation potential under climate change. In the reviewed articles, we observed a significantly lower number of genetic studies of the members of the section Cerris (especially the Euro-Mediterranean species) relative to the subgenus Quercus. We also identified research gaps with respect to the functional and population genetics of the species that should be addressed in the future. Nevertheless, the different evolutionary background and adaptation strategies of Turkey oak as compared to Central European white oaks, as well as its high phenotypic and genetic variability, may indeed represent a great potential for this species to support the climate adaptation of forestry in Central and Western Europe.}, keywords = {Europe; PHYLOGENY; ADAPTATION; Candidate genes; CLIMATE-CHANGE; MOLECULAR EVIDENCE; Fagaceae; paleobotany; phenotypic variability; Early Oligocene; CHLOROPLAST GENOME SEQUENCE; old-world oaks; section Cerris; GENUS QUERCUS}, year = {2024}, eissn = {1464-3626}, pages = {497-511}, orcid-numbers = {Nagy, László/0000-0003-1240-8217} } @article{MTMT:35144217, title = {Preparatory Study for Carbon Sequestration Modelling of Agroforestry in Hungary – The Assessment of the Average Canopy Closure of Windbreaks}, url = {https://m2.mtmt.hu/api/publication/35144217}, author = {Király, Éva Ilona and Borovics, Attila}, journal-iso = {HUNG AGRIC RES}, journal = {HUNGARIAN AGRICULTURAL RESEARCH: ENVIRONMENTAL MANAGEMENT LAND USE BIODIVERSITY}, volume = {2024}, unique-id = {35144217}, issn = {1216-4526}, year = {2024}, pages = {4-8} } @misc{MTMT:35079017, title = {Mitigating Climate Change: The ForestLab Project}, url = {https://m2.mtmt.hu/api/publication/35079017}, author = {Borovics, Attila}, doi = {10.33548/SCIENTIA1010}, unique-id = {35079017}, year = {2024}, pages = {1-5} } @{MTMT:35073762, title = {Az erdészeti nyárnemesítés története, helyzete és lehetséges irányai Magyarországon}, url = {https://m2.mtmt.hu/api/publication/35073762}, author = {Benke, Attila and Cseke, Klára and Lados, Botond Boldizsár and Borovics, Attila and Köbölkuti, Zoltán Attila}, booktitle = {Hagyomány és megújulás A magyar növénynemesítés helyzete a változó világban}, unique-id = {35073762}, year = {2024}, pages = {41-42} } @misc{MTMT:35062527, title = {Climate change mitigation aspects of increasing industrial wood assortments of hardwood species in Hungary. Konferencia előadás (angol nyelven).. 11TH HARDWOOD CONFERENCE: Sopron, Hungary, 30-31 May 2024 Sopron, Magyarország}, url = {https://m2.mtmt.hu/api/publication/35062527}, author = {Király, Éva Ilona and Börcsök, Zoltán and Borovics, Attila}, unique-id = {35062527}, year = {2024} } @CONFERENCE{MTMT:35061799, title = {Tree and crop yield and land equivalent ratio of alley cropping systems with different spatial tree arrangement}, url = {https://m2.mtmt.hu/api/publication/35061799}, author = {Honfy, Veronika and Pödör, Zoltán and Keserű, Zsolt and Borovics, Attila}, booktitle = {EURAF 2024: ABSTRACT BOOK}, unique-id = {35061799}, year = {2024}, pages = {271-272}, orcid-numbers = {Pödör, Zoltán/0000-0001-5557-5643} } @article{MTMT:35057557, title = {Európa faellátása zavaros időkben}, url = {https://m2.mtmt.hu/api/publication/35057557}, author = {Borovics, Attila and Király, Éva Ilona}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {159}, unique-id = {35057557}, issn = {1215-0398}, year = {2024}, pages = {194-199} } @article{MTMT:34903675, title = {Európa faellátása zavaros időkben. Az Erdészeti Kutatóintézetek Nemzetközi Szövetsége (IUFRO) tanulmányának összefoglalója}, url = {https://m2.mtmt.hu/api/publication/34903675}, author = {Borovics, Attila and Király, Éva Ilona}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {2024}, unique-id = {34903675}, issn = {1215-0398}, year = {2024}, pages = {194-199} } @book{MTMT:34900489, title = {Soproni Egyetem 2023. évi szervezeti karbonlábnyom kalkulációja}, url = {https://m2.mtmt.hu/api/publication/34900489}, author = {Polgár, András and Elekné Fodor, Veronika and Zsidákovits, N. and Vágvölgyi, Andrea and Vityi, Andrea and Kovács, Zoltán and Borovics, Attila and Lakatos, Ferenc and Fábián, Attila}, publisher = {University of Sopron}, unique-id = {34900489}, year = {2024}, orcid-numbers = {Vityi, Andrea/0000-0002-2035-1866} } @article{MTMT:34897485, title = {Preparatory study for carbon sequestration modelling of agroforestry systems in Hungary: The assessment of the yield class distribution of windbreaks}, url = {https://m2.mtmt.hu/api/publication/34897485}, author = {Király, Éva Ilona and Borovics, Attila}, doi = {10.34101/actaagrar/1/13673}, journal-iso = {AGRÁRTUD KÖZL}, journal = {ACTA AGRARIA DEBRECENIENSIS / AGRÁRTUDOMÁNYI KÖZLEMÉNYEK}, unique-id = {34897485}, issn = {1587-1282}, abstract = {The escalating carbon dioxide emissions leading to global climate change are acknowledged as a paramount environmental challenge in the twenty-first century. The significance of land use systems in stabilising carbon dioxide levels and enhancing carbon sink potential has gained noteworthy attention from both the scientific and political communities. The Intergovernmental Panel on Climate Change emphasises that agroforestry systems present vital prospects for synergising climate change adaptation and mitigation efforts, offering substantial technical mitigation potential. Windbreaks are well-known agroforestry systems in Hungary and form an important part of agricultural landscapes. The improved agroforestry subsidy system in our country makes it relevant to model the carbon sequestration potential of windbreaks. In the framework of the ForestLab project we plan to develop a carbon sequestration model specific for Hungarian agroforestry systems. In this study, as a preparatory step of the model development, weassessed the yield class distribution of Hungarian windbreaks by tree species group and identified variables that had significant effect on yield classbased on the data of the National Forestry Database. Our results show that among the examined effects the most important predictor of the yield class of windbreaks was the tree species group, followed by the thickness of the productive soil layer and the hydrology of the site.}, year = {2024}, eissn = {1588-8363}, pages = {73-78} } @inproceedings{MTMT:34893360, title = {Uncovering genetic structures of natural Turkey oak populations to help develop effective climate change strategies for forestry}, url = {https://m2.mtmt.hu/api/publication/34893360}, author = {Lados, Botond Boldizsár and Nagy, László and Benke, Attila and Molnár, Csilla and Köbölkuti, Zoltán Attila and Borovics, Attila and Cseke, Klára}, booktitle = {11TH HARDWOOD CONFERENCE PROCEEDINGS : Sopron, Hungary, 30-31 May 2024}, unique-id = {34893360}, abstract = {Turkey oak (Quercus cerris L.) is a widespread species of the genus Quercus section Cerris, distributed from central and southeast Europe to Asia Minor. The species has long been known for its enormous phenotypic-genotypic variability and extreme adaptability. Throughout its vast distribution range, Turkey oak occupies countless ecological niches with very different site conditions. According to the last projections, climate change is putting high pressure on the natural forest tree populations to adapt to the rapidly changing conditions. Due to their high variability and adaptability, oaks have great potential in forestry climate adaptation efforts. This is particularly true for the Turkey oak. According to recent results of climate-based modelling of species’ future distribution, Turkey oak could be a winner of climate change in Central Europe, significantly increasing its distribution and abundance. As a result, its importance in forestry and the wood industry could significantly increase in the future. However, for effective adaptation strategies, it is necessary to collect detailed information on the ecological characteristics of the species, drought adaptation strategies, genic diversity and genetic structure of wild populations throughout its range. Furthermore, as this species has previously played only a marginal role in the wood industry, its growing importance would require more detailed information on its wood properties and alternative uses for its wood. In this study, we used our recently published referencemapped genome-wide SNP dataset to investigate the genetic diversity and population structure of eight natural Turkey oak populations from Hungary and the Balkan Peninsula. Based on the diversity indices, we found that the studied population carried a relatively high amount of genetic diversity. According to various clustering approaches (fastStructure, PCA and DAPC), the studied populations were divided into four genetically distinct groups, corresponding to two Balkan, one Hungarian and one ambiguous group. The genetic isolation of these groups was found to be statistically significant and further validated by Barrier analysis, which revealed significant gene flow barriers between clusters. According to our results, Balkan populations appear to be genetically more diverse and structured, and therefore, wild populations of this biogeographical region are promising for further studies of the species’ adaptation to climate change. In addition, the genetic consistency of the Hungarian populations may indicate common refugial origin. On the other hand, the outlier ambiguous group formed by one Hungarian population is probably a legacy of a historical long-distance human-assisted movement of reproductive material. In conclusion for practice, may be an important question for future studies whether strong genetic structuring of Turkey oak populations is also manifested at the phenotypic level, for instance in different stem quality and/or wood properties of genetic groups.}, year = {2024}, pages = {78-85} } @inproceedings{MTMT:34893287, title = {Climate change mitigation aspects of increasing industrial wood assortments of hardwood species in Hungary}, url = {https://m2.mtmt.hu/api/publication/34893287}, author = {Király, Éva Ilona and Börcsök, Zoltán and Borovics, Attila}, booktitle = {11TH HARDWOOD CONFERENCE PROCEEDINGS : Sopron, Hungary, 30-31 May 2024}, unique-id = {34893287}, abstract = {The use of timber can foster climate change mitigation through long-term carbon storage, and through substitution of fossil products and fossil fuels. Inclusion of drought tolerant hardwood species in the production of high-quality long-lived wood products gains an increasing importance with the ongoing climate change. In our study we assessed the climate change mitigation potential of increasing industrial wood assortments of hardwood species in Hungary. For the estimation we used the harvested wood product module of the Forest Industry Carbon Model (FICM-HWP) which is based on the methodological guidance of the Intergovernmental Panel on Climate Change (IPCC). The model combines the IPCC wood product model and the IPCC waste model. Both models are used in the Hungarian Greenhouse Gas Inventory as well. The FICM-HWP model is a substantially newly developed version of the two IPCC models as it is supplemented with a waste-route selection and a recycling module. It also contains a product and energy substitution tool to evaluate the magnitude of avoided emissions through substitution effects. The model is able to estimate carbon storage of wood products, end-of-life emissions and avoided emissions, thus, contributing to informed decision making and circular economy goals. In this study we assumed increased industrial wood assortments from hardwood species, increased product half-lives and upscaled recycling. This way we could estimate the climate change mitigation aspects of a developed and intensified Hungarian wood industry which relies on hardwood species and generates long-term carbon storage, at the same time enabling emission reductions in other sectors through product substitution. According to our results increasing the industrial processing of currently underutilized hardwood species can lead to a six times higher carbon sequestration by 2050 as compared to the Business as Usual (BAU) level. While increasing product lifetime and improving waste management together with increasing industrial hardwood assortments leads to an eleven times higher carbon sequestration in the HWP pool as compared to the BAU level.}, year = {2024}, pages = {71-77} } @misc{MTMT:34835309, title = {Az ültetési hálózat hatása agrárerdészeti köztes termesztési rendszerek hozamaira csernozjom barna erdőtalajon. Előadás. Erdészeti Tudományos Konferencia Sopron, 2024. február 5-6.}, url = {https://m2.mtmt.hu/api/publication/34835309}, author = {Honfy, Veronika and Borovics, Attila}, unique-id = {34835309}, year = {2024} } @article{MTMT:34818043, title = {Az erdészet és a faipar klímavédelmi szerepe}, url = {https://m2.mtmt.hu/api/publication/34818043}, author = {Paulik, Katalin}, journal-iso = {INNOTEKA}, journal = {INNOTÉKA: TUDOMÁNY INNOVÁCIÓ ZÖLDGAZDASÁG}, unique-id = {34818043}, issn = {2062-6525}, year = {2024}, pages = {30-31} } @inproceedings{MTMT:34775829, title = {Az új mexikói kvótakereskedelmi rendszer és erdészeti vonatkozásai}, url = {https://m2.mtmt.hu/api/publication/34775829}, author = {Király, Éva Ilona and Borovics, Attila}, booktitle = {FENNTARTHATÓSÁGI ÁTMENET: KIHÍVÁSOK ÉS INNOVATÍV MEGOLDÁSOK - Nemzetközi tudományos konferencia a Magyar Tudomány Ünnepe alkalmából}, doi = {10.35511/978-963-334-499-6-Kiraly-Borovics}, unique-id = {34775829}, year = {2024}, pages = {61-75} } @article{MTMT:34758855, title = {Projection of the Carbon Balance of the Hungarian Forestry and Wood Industry Sector Using the Forest Industry Carbon Model}, url = {https://m2.mtmt.hu/api/publication/34758855}, author = {Borovics, Attila and Király, Éva Ilona and Kottek, Péter}, doi = {10.3390/f15040600}, journal-iso = {FORESTS}, journal = {FORESTS}, volume = {15}, unique-id = {34758855}, issn = {1999-4907}, abstract = {As forest-based climate change mitigation has become a crucial element of international climate policy it is of increasing importance to understand the processes leading to the carbon offsetting capacity of the sector. In our study, we assessed the climate benefits of contrasting forest management strategies: decreasing harvest and enlarging the forest carbon stock, or increasing harvest to increase carbon uptake, wood product carbon pools, and substitution effects. We developed the Forest Industry Carbon Model (FICM) which is a new carbon accounting tool covering forest biomass, dead organic matter, soil, and harvested wood product pools, as well as avoided emissions through product and energy substitution. We modeled the carbon balance of the Hungarian forest industry under three different scenarios. In the business as usual (BAU) scenario, we assumed no changes in the current harvest and afforestation levels. In the extensification scenario, we assumed that the harvest and afforestation levels drop to half, while in the intensification scenario, we assumed an increase in afforestation, improved industrial wood assortments, and a gradual increase in logging, reaching the highest level as per sustainability criteria by 2050. Our results show that the intensification scenario is characterized by the largest net removals and the maximized product and energy substitution effects. By 2050, the net forest industry carbon balance reaches −8447 kt CO2 eq under the BAU scenario, while −7011 kt CO2 eq is reached under the extensification scenario and −22,135 kt CO2 eq is reached under the intensification scenario. Although substitution effects are not accounted for under the land-based (LULUCF) sector in the greenhouse gas inventory, the emission reductions in the industry and energy sectors have beneficial effects on the national carbon balance. Modeling results show that the 2030 LULUCF greenhouse gas removal target set by EU legislation for Hungary is reached under the intensification scenario. To achieve this outcome, widespread innovation is needed in the wood sector. The modeling results show that nonutilization of forests can only be a very short-term solution; however, its favorable effects will be reversed by 2050 resulting in additional emissions compared to the BAU scenario.}, year = {2024}, eissn = {1999-4907} } @article{MTMT:34734080, title = {CLIMATE CHANGE MITIGATION THROUGH CARBON STORAGE AND PRODUCT SUBSTITUTION IN THE HUNGARIAN WOOD INDUSTRY}, url = {https://m2.mtmt.hu/api/publication/34734080}, author = {Király, Éva Ilona and Börcsök, Zoltán and Kocsis, Zoltán and Németh, Gábor and Polgár, András and Borovics, Attila}, doi = {10.37763/wr.1336-4561/69.1.7286}, journal-iso = {WOOD RES-SLOVAKIA}, journal = {WOOD RESEARCH}, volume = {69}, unique-id = {34734080}, issn = {1336-4561}, abstract = {In our study we estimated under two different scenarios the historic and future carbon balance of the Hungarian harvested wood product (HWP) pool using the HWP-RIAL model. We also estimated the effect of product and energy substitution and the magnitude of avoided emissions based on international substitution factors. According to our results in the period 1985–2021 the average of the HWP net emissions plus substitution effects was -3,800 kt CO2. In this period the 49% of the forest industry-related climate benefits was attributable to carbon storage in forests, while 4% was attributable to carbon storage in wood products and 47% to product and energy substitution. According to our projection the HWP net emissions plus substitution effects could reach -14,994 kt CO2 up to 2050 under an intensified domestic wood processing industry. This means that product substitution benefits could be tripled, while the net removals of the HWP pool could be 5 times higher than the historic values.}, year = {2024}, pages = {72-86} } @misc{MTMT:34715633, title = {Tűzifával való égetés karbonlábnyoma – erdőtől a hasznos hőig. Előadás}, url = {https://m2.mtmt.hu/api/publication/34715633}, author = {Polgár, András and Szakálosné Mátyás, Katalin and Horváth, Attila László and Kovács, Zoltán and Vityi, Andrea and Vágvölgyi, Andrea and Kocsis, Zoltán and Király, Éva Ilona and Börcsök, Zoltán and Borovics, Attila and Elekné Fodor, Veronika and Németh, Gábor}, unique-id = {34715633}, year = {2024}, orcid-numbers = {Vityi, Andrea/0000-0002-2035-1866} } @misc{MTMT:34628377, title = {Mitigáció és alkalmazkodás az erdőalapú gazdaságban. Konferencia előadás. Erdészeti Tudományos Konferencia Sopron, 2024. február 5.}, url = {https://m2.mtmt.hu/api/publication/34628377}, author = {Borovics, Attila and Király, Éva Ilona}, unique-id = {34628377}, year = {2024} } @misc{MTMT:34628321, title = {A fatermékek termékhelyettesítési hatásainak számszerűsítése. Konferencia előadás. Erdészeti Tudományos Konferencia Sopron, 2024. február 6.}, url = {https://m2.mtmt.hu/api/publication/34628321}, author = {Király, Éva Ilona and Borovics, Attila}, unique-id = {34628321}, year = {2024} } @misc{MTMT:34628290, title = {Az erdők élőfakészletében megvalósuló szénmegkötés és az erdőgazdálkodás üzemmódja közötti összefüggés vizsgálata. Konferencia-előadás, II. Magyar Agrártudományi Doktoranduszok Szimpóziuma, Állatorvostudományi Egyetem, Budapest 2023. február 16.}, url = {https://m2.mtmt.hu/api/publication/34628290}, author = {Király, Éva Ilona and Borovics, Attila}, unique-id = {34628290}, year = {2024} } @misc{MTMT:34628195, title = {Az erdők élőfakészletében megvalósuló szénmegkötés és az erdőgazdálkodás üzemmódja közötti összefüggés vizsgálata. Absztrakt, In: Hajdú, Péter (szerk.) II. Magyar Agrártudományi Doktoranduszok Szimpóziuma 2024 : Absztraktkötet Budapest, Magyarország: Doktoranduszok Országos Szövetsége (DOSZ)}, url = {https://m2.mtmt.hu/api/publication/34628195}, author = {Király, Éva Ilona and Borovics, Attila}, unique-id = {34628195}, year = {2024} } @article{MTMT:34568989, title = {ddRAD-seq generated genomic SNP dataset of Central and Southeast European Turkey oak (Quercus cerris L.) populations}, url = {https://m2.mtmt.hu/api/publication/34568989}, author = {Lados, Botond Boldizsár and Cseke, Klára and Benke, Attila and Köbölkuti, Zoltán Attila and Molnár, Csilla and Nagy, László and Móricz, Norbert and Németh, Tamás Márton and Borovics, Attila and Mészáros, Ilona and Tóth, Endre György}, doi = {10.1007/s10722-024-01889-5}, journal-iso = {GENET RESOUR CROP EV}, journal = {GENETIC RESOURCES AND CROP EVOLUTION}, unique-id = {34568989}, issn = {0925-9864}, abstract = {Turkey oak ( Quercus cerris L.) is one of the most ecologically and economically significant deciduous tree species in the Central and Southeast European regions. The species has long been known to exhibit high levels of genetic and phenotypic variation. Recent climate response predictions for Turkey oak suggest a significant distribution extension in Europe under climate change. Since Turkey oak has relative drought-tolerant behaviour, it is regarded as a potential alternative for other forest tree species during forestry climate adaptation efforts, not only in its native regions but also in Western Europe. For this reason, the survey of existing genetic variability, genetic resources, and adaptability of this species has great significance. Next-generation sequencing approaches, such as ddRAD-seq (Double digest restriction-site associated DNA sequencing), allow the attainment of high-resolution genome-wide single nucleotide polymorphisms (SNPs). This study provides the first highly variable genome-wide SNP data for Turkey oak generated by ddRAD-seq. The dataset comprises 17 607 de novo and 26 059 reference mapped SNPs for 88 individuals from eight populations, two from Bulgaria, one from Kosovo, and five from Hungary. Reference mapping was carried out by using cork oak’s ( Quercus suber L.) reference genome. The obtained high-resolution genome-wide markers are suitable for investigating selection and local adaptation and inferring genetic diversity, differentiation, and population structure. The dataset is accessible at: https://doi.org/10.5281/zenodo.8091252}, year = {2024}, eissn = {1573-5109}, orcid-numbers = {Nagy, László/0000-0003-1240-8217} } @article{MTMT:34547611, title = {Carbon sequestration of Hungarian forests by management system and protection status}, url = {https://m2.mtmt.hu/api/publication/34547611}, author = {Király, Éva Ilona and Borovics, Attila}, doi = {10.1016/j.tfp.2024.100511}, journal-iso = {TREES FORESTS PEOPLE}, journal = {TREES FORESTS AND PEOPLE}, volume = {15}, unique-id = {34547611}, issn = {2666-7193}, year = {2024}, eissn = {2666-7193} } @CONFERENCE{MTMT:34526037, title = {Hazai magyar tölgy (Quercus frainetto Ten.) előfordulások populációgenetikai vizsgálata - Első eredmények}, url = {https://m2.mtmt.hu/api/publication/34526037}, author = {Cseke, Klára and Lados, Botond Boldizsár and Molnár, Csilla and Farkas, Máté and Nagy-Khell, Melinda and Nagy, László and Köbölkuti, Zoltán Attila and Borovics, Attila and Benke, Attila}, booktitle = {Erdészeti Tudományos Konferencia Sopron, 2024. február 5-6. : Kivonatok Kötete}, unique-id = {34526037}, year = {2024}, pages = {67}, orcid-numbers = {Nagy, László/0000-0003-1240-8217} } @CONFERENCE{MTMT:34524793, title = {Tűzifával való égetés karbonlábnyoma - erdőtől a hasznos hőig}, url = {https://m2.mtmt.hu/api/publication/34524793}, author = {Polgár, András and Szakálosné Mátyás, Katalin and Horváth, Attila László and Kovács, Zoltán and Vityi, Andrea and Vágvölgyi, Andrea and Kocsis, Zoltán and Király, Éva Ilona and Bidló, András and Börcsök, Zoltán and Borovics, Attila and Elekné Fodor, Veronika and Németh, Gábor}, booktitle = {Erdészeti Tudományos Konferencia Sopron, 2024. február 5-6. : Kivonatok Kötete}, unique-id = {34524793}, year = {2024}, pages = {55}, orcid-numbers = {Vityi, Andrea/0000-0002-2035-1866} } @CONFERENCE{MTMT:34523103, title = {Csertölgy állományok változatossága hazánkban és a Balkánon - genetikai vizsgálatok az erdészeti klímaadaptáció szolgálatában}, url = {https://m2.mtmt.hu/api/publication/34523103}, author = {Lados, Botond Boldizsár and Nagy, László and Benke, Attila and Molnár, Csilla and Köbölkuti, Zoltán Attila and Borovics, Attila and Cseke, Klára}, booktitle = {Erdészeti Tudományos Konferencia Sopron, 2024. február 5-6. : Kivonatok Kötete}, unique-id = {34523103}, year = {2024}, pages = {44}, orcid-numbers = {Nagy, László/0000-0003-1240-8217} } @CONFERENCE{MTMT:34523022, title = {A fatermékek termékhelyettesítési hatásainak számszerűsítése}, url = {https://m2.mtmt.hu/api/publication/34523022}, author = {Király, Éva Ilona and Borovics, Attila}, booktitle = {Erdészeti Tudományos Konferencia Sopron, 2024. február 5-6. : Kivonatok Kötete}, unique-id = {34523022}, year = {2024}, pages = {44} } @CONFERENCE{MTMT:34517947, title = {Bioinformatikai módszer alkalmazása faanyagtani jellegek genetikai szabályozásának vizsgálatában nyárakon (Populus sp.)}, url = {https://m2.mtmt.hu/api/publication/34517947}, author = {Benke, Attila and Köbölkuti, Zoltán Attila and Cseke, Klára and Borovics, Attila and Tóth, Endre György}, booktitle = {Erdészeti Tudományos Konferencia Sopron, 2024. február 5-6. : Kivonatok Kötete}, unique-id = {34517947}, year = {2024}, pages = {67} } @CONFERENCE{MTMT:34517607, title = {Az ültetési hálózat hatása agrárerdészeti köztes termesztési rendszerek hozamaira csernozjom barna erdőtalajon}, url = {https://m2.mtmt.hu/api/publication/34517607}, author = {Honfy, Veronika and Borovics, Attila}, booktitle = {Erdészeti Tudományos Konferencia Sopron, 2024. február 5-6. : Kivonatok Kötete}, unique-id = {34517607}, year = {2024}, pages = {13} } @CONFERENCE{MTMT:34517269, title = {Klímamitigáció és alkalmazkodás az erdőiparban}, url = {https://m2.mtmt.hu/api/publication/34517269}, author = {Borovics, Attila and Király, Éva Ilona}, booktitle = {Erdészeti Tudományos Konferencia Sopron, 2024. február 5-6. : Kivonatok Kötete}, unique-id = {34517269}, year = {2024}, pages = {9} } @article{MTMT:34476855, title = {Carbon Sequestration in the Aboveground Living Biomass of Windbreaks—Climate Change Mitigation by Means of Agroforestry in Hungary}, url = {https://m2.mtmt.hu/api/publication/34476855}, author = {Király, Éva Ilona and Keserű, Zsolt and Molnár, Tamás and Szabó, Orsolya and Borovics, Attila}, doi = {10.3390/f15010063}, journal-iso = {FORESTS}, journal = {FORESTS}, volume = {15}, unique-id = {34476855}, issn = {1999-4907}, abstract = {The land use sector is a crucial pillar in achieving the EU climate goals set for 2050. A significant part of the climate change mitigation potential of the land use sector is inherent to agroforestry. Windbreaks are important agroforestry elements of Hungarian agricultural landscapes. The new and improved agroforestry subsidy system may positively affect the extension of windbreaks in Hungary, making it relevant to assess their carbon sequestration potential. In our study, we examined the carbon sequestration of windbreaks at the country level and in two sample areas of 24,000 hectares based on National Forestry Database volume stock data, as well as information collected from the Hungarian Forest Cover Map using orthophoto interpretation. We estimated the total annual carbon sequestration realized in the aboveground biomass pool of Hungarian windbreaks to be −33.1 ktCO2/year, which is 0.67% of the total annual carbon sequestration of the aboveground biomass pool of all Hungarian forests, as reported by the Hungarian Greenhouse Gas Inventory. On the other hand, according to our estimate, the weighted mean annual carbon sequestration in the aboveground biomass of windbreaks was −2.4 tCO2/ha/year in the 2010–2020 period. This value is very close to the average mean annual carbon sequestration per hectare value of all forests, as reported by the Hungarian Greenhouse Gas Inventory. This means that planting a given area of windbreaks in between agricultural fields can have similar climate change mitigation effects as planting forests in the same given area.}, year = {2024}, eissn = {1999-4907} } @misc{MTMT:34835297, title = {Agrárerdészeti köztes termesztési rendszerek hozamvizsgálatai és a földegyenérték-arány meghatározása. Előadás. I.Magyar Agrártudományi Doktoranduszok Szimpóziuma 2023 2023-02-24 [Debrecen, Magyarország]}, url = {https://m2.mtmt.hu/api/publication/34835297}, author = {Honfy, Veronika and Borovics, Attila}, unique-id = {34835297}, year = {2023} } @inproceedings{MTMT:34581307, title = {POSSIBILITIES AND DIFFICULTIES OF MEASURING CARBON SEQUESTRATION IN AGROFORESTRY SYSTEMS IN HUNGARY}, url = {https://m2.mtmt.hu/api/publication/34581307}, author = {Szabó, Orsolya and Molnár, Tamás and Király, Éva Ilona and Borovics, Attila and Keserű, Zsolt}, booktitle = {XIV International Scientific Agriculture Symposium „AGROSYM 2023“. Book of Proceedings.}, unique-id = {34581307}, year = {2023}, pages = {1292-1298} } @article{MTMT:34483700, title = {The Challenge of Mobilizing the Unused Wood Stock Reserve to Foster a Sustainable and Prosperous Hungarian Forest Industry}, url = {https://m2.mtmt.hu/api/publication/34483700}, author = {Borovics, Attila and Király, Éva Ilona}, doi = {10.3303/CET23107107}, journal-iso = {CHEM ENG TR}, journal = {CHEMICAL ENGINEERING TRANSACTIONS}, volume = {107}, unique-id = {34483700}, issn = {1974-9791}, abstract = {Woody biomass is a key raw material of the circular bioeconomy, and its use can contribute considerably to achieving sustainability goals and carbon neutrality. The use of timber can foster climate change mitigation through long-term carbon storage and through the substitution of fossil products and fossil fuels. Sustainable forest management is meant to balance the contradictory goals of economic efficiency and nature conservation with careful planning and foresight. Consequently, it is important to assess the amount of timber that can be harvested without compromising sustainability. In our study, we examined the amount of wood stock accumulated in overmature stands in Hungary. Overmature stands are defined as those stands where the actual age of the stand is over its cutting age prescribed by the Forest Authority. 11.5 % of the standing volume in Hungary is overmature, and the wood stock of overmature stands has increased by more than 250 % in the last 40 y. Our results point out that a significant surplus of timber ripe for cutting is stored in overmature stands. The importance of this unused wood stock reserve is enormous, as it is a basis for meeting the growing timber demand in a sustainable way. In our study, we present the most important characteristics of the overmature black locust (Robinia pseudoacacia), which stands as a representative example. The authors conclude that the mobilization of the unused wood stock reserve and the utilization of the additional harvest possibility will be among the most important challenges of the Hungarian forest industry in the upcoming decades. The harvesting potential could be unlocked by professional integration and technical assistance provided to forest managers and wood industry enterprises based on GIS applications. Geographically explicit information on the amount and value of wood stocks available for harvest could be a basis for creating a new type of entrepreneurial culture and new ways of providing forest-related services.}, year = {2023}, eissn = {2283-9216}, pages = {637-642} } @{MTMT:34483674, title = {Az új mexikói kvótakereskedelmi rendszer és erdészeti vonatkozásai. In: Resperger, Richárd (2023) FENNTARTHATÓSÁGI ÁTMENET: KIHÍVÁSOK ÉS INNOVATÍV MEGOLDÁSOK - Nemzetközi tudományos konferencia a Magyar Tudomány Ünnepe alkalmából : Programfüzet és előadáskivonatok. Soproni Egyetem Kiadó, Sopron. ISBN 9789633344989}, url = {https://m2.mtmt.hu/api/publication/34483674}, author = {Király, Éva Ilona and Borovics, Attila}, booktitle = {FENNTARTHATÓSÁGI ÁTMENET: KIHÍVÁSOK ÉS INNOVATÍV MEGOLDÁSOK - Nemzetközi tudományos konferencia a Magyar Tudomány Ünnepe alkalmából : Programfüzet és előadáskivonatok}, unique-id = {34483674}, year = {2023}, pages = {35-35} } @article{MTMT:34436751, title = {Városi zöld infrastruktúra fejlesztése az emberek és a környezet érdekében II.}, url = {https://m2.mtmt.hu/api/publication/34436751}, author = {Borovics, Attila and Király, Éva Ilona and Lomniczi, Gergely}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {158}, unique-id = {34436751}, issn = {1215-0398}, year = {2023}, pages = {446-449} } @article{MTMT:34407211, title = {The Re-parametrization of the DAS Model Based on 2016-2021 Data of the National Forestry Database: New Results on Cutting Age Distributions}, url = {https://m2.mtmt.hu/api/publication/34407211}, author = {Kottek, Péter and Király, Éva Ilona and Mertl, Tamás and Borovics, Attila}, doi = {10.37045/aslh-2023-0005}, journal-iso = {ACTA SILV LIGNARIA HUNG}, journal = {ACTA SILVATICA ET LIGNARIA HUNGARICA: AN INTERNATIONAL JOURNAL IN FOREST, WOOD AND ENVIRONMENTAL SCIENCES}, volume = {19}, unique-id = {34407211}, issn = {1786-691X}, abstract = {This paper presents the DAS forest model (Distributions Applied on Stands model), a forest stand-based model suitable for projecting standing volume, increment, harvest, and carbon sequestration on the stand, regional, or country levels. The forest subcompartment is the modelling unit of the DAS model, which uses National Forestry Database (NFD) data, including geospatial data. The model is suitable for further processing spatially explicit input parameters such as climate change forecasts. The model output is also georeferenced and can be further processed using GIS software. The model handles the data of approximately 600,000 forest subcompartments. Data on tree species, origin, age, growing stock, increment etc. of each subcompartment are stored in “tree-species rows”, which are the sub-units of the model. The DAS model simultaneously processes the data of 1.2 million tree species rows and describes their development in time. It uses parameters based on the actual processes of the reference period. It also uses empiric cutting age distributions and a regeneration matrix derived from historic NFD data. The ForestLab project (TKP2021-NKTA-43) is currently engaged in the re-parametrization of the model based on 2016–2021 data. This study discusses the functions of the harvesting ratio distribution in the modelling process and in determining the subcompartments selected for harvest. The paper presents the latest results regarding the 2016–2021 cutting age distributions and the preparation of the new set of species-specific and yield class-specific average harvesting ratio distributions.}, keywords = {climate change; CUTTING EDGE; Carbon storage; forest model; harvesting ratio}, year = {2023}, eissn = {1787-064X}, pages = {61-74} } @misc{MTMT:34397569, title = {Az új mexikói kvótakereskedelmi rendszer és erdészeti vonatkozásai. Előadás.}, url = {https://m2.mtmt.hu/api/publication/34397569}, author = {Király, Éva Ilona and Borovics, Attila}, unique-id = {34397569}, year = {2023} } @misc{MTMT:34397541, title = {The Newly Developed Mexican Emission Trading System and its Forestry Aspects. In: Resperger, Richárd (2023) FENNTARTHATÓSÁGI ÁTMENET: KIHÍVÁSOK ÉS INNOVATÍV MEGOLDÁSOK - Nemzetközi tudományos konferencia a Magyar Tudomány Ünnepe alkalmából : Programfüzet és előadáskivonatok. Soproni Egyetem Kiadó, Sopron. ISBN 9789633344989}, url = {https://m2.mtmt.hu/api/publication/34397541}, author = {Király, Éva Ilona and Borovics, Attila}, unique-id = {34397541}, year = {2023}, pages = {35} } @book{MTMT:34391866, title = {Életciklus elemzés. A faalapú biomassza energetikai célú felhasználásának szénlábnyoma és modellje, tűzifával való égetés CO2-lábnyom elemzése}, url = {https://m2.mtmt.hu/api/publication/34391866}, author = {Polgár, András and Szakálosné Mátyás, Katalin and Horváth, Attila László and Kovács, Zoltán and Vityi, Andrea and Vágvölgyi, Andrea and Kocsis, Zoltán and Király, Éva Ilona and Bidló, András and Börcsök, Zoltán and Borovics, Attila and Magoss, Endre and Elekné Fodor, Veronika and Németh, Gábor}, publisher = {University of Sopron}, unique-id = {34391866}, year = {2023}, orcid-numbers = {Vityi, Andrea/0000-0002-2035-1866} } @misc{MTMT:34293955, title = {Az erdőgazdálkodási üzemmódok klímamitigációs szerepének értékelése. Előadás - Alföldi Erdőkért Egyesület Kutatói Nap, 2023. november 9.}, url = {https://m2.mtmt.hu/api/publication/34293955}, author = {Király, Éva Ilona and Borovics, Attila}, unique-id = {34293955}, year = {2023} } @inproceedings{MTMT:34289614, title = {Az erdőgazdálkodási üzemmódok klímamitigációs szerepének értékelése}, url = {https://m2.mtmt.hu/api/publication/34289614}, author = {Király, Éva Ilona and Borovics, Attila}, booktitle = {Alföldi Erdőkért Egyesület Kutatói Nap}, unique-id = {34289614}, year = {2023}, pages = {16-23} } @misc{MTMT:34246752, title = {A túltartott állományok fakészletének jellemzői és a jövőben elérhető hozamok előrejelzése. Előadás}, url = {https://m2.mtmt.hu/api/publication/34246752}, author = {Borovics, Attila and Király, Éva Ilona and Mertl, Tamás and Kottek, Péter}, unique-id = {34246752}, year = {2023} } @article{MTMT:34239230, title = {Városi zöld infrastruktúra fejlesztése az emberek és a környezet érdekében I.}, url = {https://m2.mtmt.hu/api/publication/34239230}, author = {Borovics, Attila and Király, Éva Ilona and Lomniczi, Gergely}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {158}, unique-id = {34239230}, issn = {1215-0398}, year = {2023}, pages = {394-397} } @misc{MTMT:34212420, title = {Erdőállomány prognózis a Szombathelyi Erdészeti Zrt. területére}, url = {https://m2.mtmt.hu/api/publication/34212420}, author = {Borovics, Attila and Király, Éva Ilona and Kottek, Péter}, unique-id = {34212420}, year = {2023} } @misc{MTMT:34212389, title = {A maximális hozamok előrejelzése 2100-ig}, url = {https://m2.mtmt.hu/api/publication/34212389}, author = {Borovics, Attila and Király, Éva Ilona and Kottek, Péter}, unique-id = {34212389}, year = {2023} } @misc{MTMT:34212339, title = {The challenge of mobilizing the unused wood stock reserve to foster a sustainable and prosperous Hungarian forest industry}, url = {https://m2.mtmt.hu/api/publication/34212339}, author = {Borovics, Attila and Király, Éva Ilona}, unique-id = {34212339}, year = {2023} } @article{MTMT:34125020, title = {Differences in the Growth and the Ecophysiology of Newly Bred, Drought-Tolerant Black Locust Clones}, url = {https://m2.mtmt.hu/api/publication/34125020}, author = {Ábri, Tamás and Borovics, Attila and Csajbók, József and Kovács, Elza and Koltay, András and Keserű, Zsolt and Rédei, Károly Miklós}, doi = {10.3390/f14091802}, journal-iso = {FORESTS}, journal = {FORESTS}, volume = {14}, unique-id = {34125020}, issn = {1999-4907}, abstract = {In this study, the growth and physiological performance of four newly bred black locust (Robinia pseudoacacia L.) clones (‘NK1’, ‘NK2’, ‘PL040’, ‘PL251’) together with one registered in Hungary (‘Üllői’) were monitored and compared in a field experiment located in the dry temperate climatic zone of Eastern Central Europe. Tree height and diameter at breast height were measured monthly during May–August 2022, an extremely dry period. Ecophysiological parameters such as leaf temperature, vapor pressure deficit, intercellular carbon dioxide level, transpiration and assimilation rates, and stomatal conductance to water and CO2 were measured in situ. There was a high clonal effect on survival rate and growth of the trees and on the physiological parameters. ‘NK1’ performed best regarding height (1.88 m), while ‘PL040’ (23.76 mm) had the highest diameter increment (n = 16–26). The highest carboxylation efficiency was found in ‘NK2’ (0.077 µmol m−2 s−1), while the lowest was in ‘NK1’ (0.035 µmol m−2 s−1), not showing a significant difference from the ‘Üllői’. Water-use efficiency values were found to be the highest in ‘NK2’ and ‘Üllői’ (4.92 and 4.78 kg m−3, respectively). Ci was found to be maximum in ‘NK1’ and ‘PL040’ (286.15 and 287.37 µmol mol−1, respectively), while it was minimum in ‘Üllői’ (248.30 µmol mol−1). Physiological parameters were found to be significantly different in the clones due to their genetic differences. A strong positive correlation was found between the transpiration and the assimilation rates (r = 0.843–0.994). Within the growing period, the loss of leaves due to abiotic stress was 0 for ‘NK1’ and negligible for the others. ‘NK2’ stood out among the other clones in most of the parameters tested (height, thickness, assimilation, WUE). In addition to its high photosynthetic intensity, its water-use efficiency was also high.}, year = {2023}, eissn = {1999-4907}, orcid-numbers = {Ábri, Tamás/0000-0002-0317-0975; Csajbók, József/0000-0003-0281-2590; Keserű, Zsolt/0000-0003-1123-8447} } @article{MTMT:34078052, title = {Estimation of the Overmature Wood Stock and the Projection of the Maximum Wood Mobilization Potential up to 2100 in Hungary}, url = {https://m2.mtmt.hu/api/publication/34078052}, author = {Borovics, Attila and Mertl, Tamás and Király, Éva Ilona and Kottek, Péter}, doi = {10.3390/f14081516}, journal-iso = {FORESTS}, journal = {FORESTS}, volume = {14}, unique-id = {34078052}, issn = {1999-4907}, abstract = {The demand for woody biomass as a key raw material of the developing circular bioeconomy is expected to increase. This has led to the need of increased timber productivity and the search for new procurement methods, new assortments, and innovative supply chains. Timber is regarded as a climate-friendly resource, which can contribute to climate change mitigation through long-term carbon storage and through the substitution of fossil products and fossil fuels. Thus, it is of high importance to assess the amount of timber that can be harvested without compromising sustainability concerns. In this paper, we examined the amount of the wood stock accumulated in overmature stands in Hungary. We define overmature stands being those stands where the actual age of the stand is over its cutting age prescribed by the forest authority. According to our results, 11.5% of the standing volume in Hungary is overmature, and the wood stock of overmature stands has increased by more than 250% in the last 40 years. The importance of the overmature forests is enormous, as they represent an unused wood stock reserve, which could be available to meet the growing demand for timber. In our study, we also conducted a simple yield table-based projection on the maximum amount of timber available for harvest in the period 2020–2100 based on the data of the national forestry database and the cutting ages prescribed by the forest authority in the forest management plans. According to our results, even without new afforestation, more timber becomes available for harvest annually in the 2020–2100 period than the level of the average harvests of the last five historic years. In the 2020–2050 period, an additional 56% of timber is projected to become available for harvest as a maximum. This means a maximum additional potential of 4059 thousand m3, even without the harvesting of the stands, which were already overmature in the starting year of the projection. In the first part of the projection period, industrial wood available for harvest is forecasted to be above the average historic level of industrial wood production. However, in the second part of the projection period, the industrial wood yield shows a decreasing tendency and even drops below the 2017–2021 average. The decreasing availability of industrial roundwood in the second part of the projection period points out the importance of innovation in the wood industry. The inclusion of drought tolerant species, which are nowadays less used for industrial purposes seems inevitable in the production of high-quality wood products.}, keywords = {Carbon storage; Climate mitigation; yield projection; Harvested wood products; assortment composition; overmature stands}, year = {2023}, eissn = {1999-4907} } @{MTMT:34069811, title = {A szelektált akácfajták és fajtajelöltek termesztés-fejlesztésének jövőbeni főbb irányai}, url = {https://m2.mtmt.hu/api/publication/34069811}, author = {Rédei, Károly Miklós and Borovics, Attila and Bach, István and Keserű, Zsolt and Ábri, Tamás}, booktitle = {Szelektált akácfajták termesztési technológiája}, unique-id = {34069811}, year = {2023}, pages = {46-47}, orcid-numbers = {Ábri, Tamás/0000-0002-0317-0975} } @{MTMT:34069795, title = {Szelektált akácfajták termesztési kísérleteinek értékelése}, url = {https://m2.mtmt.hu/api/publication/34069795}, author = {Rédei, Károly Miklós and Borovics, Attila and Keserű, Zsolt and Ábri, Tamás}, booktitle = {Szelektált akácfajták termesztési technológiája}, unique-id = {34069795}, year = {2023}, pages = {40-45}, orcid-numbers = {Ábri, Tamás/0000-0002-0317-0975} } @article{MTMT:34053051, title = {Az erdészeti bioenergia hozzájárul a karbonsemlegességhez. Klímavédelmi szempontból valóban jobb gázzal vagy szénnel fűteni, mint fával?}, url = {https://m2.mtmt.hu/api/publication/34053051}, author = {Borovics, Attila and Kottek, Péter and Király, Éva Ilona}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {158}, unique-id = {34053051}, issn = {1215-0398}, year = {2023}, pages = {223-226} } @misc{MTMT:34045167, title = {New HWP emission calculation tool – Hungary}, url = {https://m2.mtmt.hu/api/publication/34045167}, author = {Király, Éva Ilona and Borovics, Attila}, unique-id = {34045167}, year = {2023} } @misc{MTMT:34045144, title = {Klímamitigáció az erdészeti és faipari szektorban a nagyvilágban és hazánkban}, url = {https://m2.mtmt.hu/api/publication/34045144}, author = {Borovics, Attila and Király, Éva Ilona}, unique-id = {34045144}, year = {2023} } @book{MTMT:34034568, title = {Szelektált akácfajták termesztési technológiája}, url = {https://m2.mtmt.hu/api/publication/34034568}, isbn = {9786150179995}, author = {Rédei, Károly Miklós and Ábri, Tamás and Bach, István and Borovics, Attila and Keserű, Zsolt}, publisher = {MED-KÖR Egészségügyi és Környezetfejlesztési Bt.; Erdészeti Tudományos Intézet}, unique-id = {34034568}, year = {2023}, orcid-numbers = {Ábri, Tamás/0000-0002-0317-0975} } @misc{MTMT:34024837, title = {Agroforestry can contribute to meeting the growing demand for wood}, url = {https://m2.mtmt.hu/api/publication/34024837}, author = {Vityi, Andrea and Winkler, Dániel and Tuba, Katalin and Király, Géza and Polgár, András and Benke, Attila and Borovics, Attila and Vágvölgyi, Andrea}, unique-id = {34024837}, year = {2023}, orcid-numbers = {Vityi, Andrea/0000-0002-2035-1866; Király, Géza/0000-0003-0286-207X} } @article{MTMT:34019499, title = {Key triggers of adaptive genetic variability of sessile oak [Q. petraea (Matt.) Liebl.] from the Balkan refugia: outlier detection and association of SNP loci from ddRAD-seq data}, url = {https://m2.mtmt.hu/api/publication/34019499}, author = {Tóth, Endre György and Cseke, Klára and Benke, Attila and Lados, Botond Boldizsár and Tomov, Vladimir T. and Zhelev, Petar and Kámpel, József and Borovics, Attila and Köbölkuti, Zoltán Attila}, doi = {10.1038/s41437-023-00629-2}, journal-iso = {HEREDITY}, journal = {HEREDITY}, volume = {1}, unique-id = {34019499}, issn = {0018-067X}, abstract = {Knowledge on the genetic composition of Quercus petraea in south-eastern Europe is limited despite the species’ significant role in the re-colonisation of Europe during the Holocene, and the diverse climate and physical geography of the region. Therefore, it is imperative to conduct research on adaptation in sessile oak to better understand its ecological significance in the region. While large sets of SNPs have been developed for the species, there is a continued need for smaller sets of SNPs that are highly informative about the possible adaptation to this varied landscape. By using double digest restriction site associated DNA sequencing data from our previous study, we mapped RAD-seq loci to the Quercus robur reference genome and identified a set of SNPs putatively related to drought stress-response. A total of 179 individuals from eighteen natural populations at sites covering heterogeneous climatic conditions in the southeastern natural distribution range of Q. petraea were genotyped. The detected highly polymorphic variant sites revealed three genetic clusters with a generally low level of genetic differentiation and balanced diversity among them but showed a north–southeast gradient. Selection tests showed nine outlier SNPs positioned in different functional regions. Genotype-environment association analysis of these markers yielded a total of 53 significant associations, explaining 2.4–16.6% of the total genetic variation. Our work exemplifies that adaptation to drought may be under natural selection in the examined Q. petraea populations.}, year = {2023}, eissn = {1365-2540}, pages = {1-15}, orcid-numbers = {Tóth, Endre György/0000-0001-7060-924X; Cseke, Klára/0000-0002-1728-5167; Benke, Attila/0000-0003-0149-4252; Lados, Botond Boldizsár/0000-0003-4729-5283; Tomov, Vladimir T./0000-0003-0579-9942; Zhelev, Petar/0000-0002-4273-3400; Borovics, Attila/0000-0002-6376-3342} } @article{MTMT:33989351, title = {A new model for predicting carbon storage dynamics and emissions related to the waste management of wood products: introduction of the HWP-RIAL model}, url = {https://m2.mtmt.hu/api/publication/33989351}, author = {Király, Éva Ilona and Börcsök, Zoltán and Kocsis, Zoltán and Németh, Gábor and Polgár, András and Borovics, Attila}, doi = {10.34101/actaagrar/1/12495}, journal-iso = {AGRÁRTUD KÖZL}, journal = {ACTA AGRARIA DEBRECENIENSIS / AGRÁRTUDOMÁNYI KÖZLEMÉNYEK}, volume = {2023}, unique-id = {33989351}, issn = {1587-1282}, keywords = {recycling; CO2; incineration; Landfill; Climate mitigation; Harvested wood products}, year = {2023}, eissn = {1588-8363}, pages = {75-81} } @{MTMT:33861870, title = {Csertölgy (Quercus cerris L.) populációk genetikai vizsgálatai erdészeti szaporítóanyag források felülvizsgálatára}, url = {https://m2.mtmt.hu/api/publication/33861870}, author = {Lados, Botond Boldizsár and Cseke, Klára and Nagy, László and Benke, Attila and Molnár, Csilla and Köbölkuti, Zoltán Attila and Borovics, Attila and Tóth, Endre György}, booktitle = {XXIX. Növénynemesítési Tudományos Napok}, unique-id = {33861870}, year = {2023}, pages = {59-59}, orcid-numbers = {Nagy, László/0000-0003-1240-8217} } @misc{MTMT:33766743, title = {Erdőalapú Gazdaság Fejlesztése c. koncepció bemutatása. Előadás.}, url = {https://m2.mtmt.hu/api/publication/33766743}, author = {Fábián, Attila and Polgár, András and Szili-Török, György and Elekné Fodor, Veronika and Őrsi, Árpád and Borovics, Attila}, unique-id = {33766743}, year = {2023} } @article{MTMT:33754383, title = {Modelling Carbon Storage Dynamics of Wood Products with the HWP-RIAL Model—Projection of Particleboard End-of-Life Emissions under Different Climate Mitigation Measures}, url = {https://m2.mtmt.hu/api/publication/33754383}, author = {Király, Éva Ilona and Kis-Kovács, Gábor and Börcsök, Zoltán and Kocsis, Zoltán and Németh, Gábor and Polgár, András and Borovics, Attila}, doi = {10.3390/su15076322}, journal-iso = {SUSTAINABILITY-BASEL}, journal = {SUSTAINABILITY}, volume = {15}, unique-id = {33754383}, abstract = {Harvested wood products (HWPs) store a significant amount of carbon, and their lifetime extension and appropriate waste management, recycling, and reuse can contribute remarkably to the achievement of climate goals. In this study, we examined the carbon storage and CO2 and CH4 emissions under different scenarios of 200,000 m3 particleboard manufactured in 2020 by a hypothetical manufacturer. The scope of our investigation was to model the effects of a changing product lifetime, recycling rates and waste management practices on the duration of the carbon storage in wood panels and on their emission patterns. The aim of the investigation was to identify the most climate-friendly practices and find the combination of measures related to HWP production and waste management with the highest climate mitigation effect. We used the newly developed HWP-RIAL (recycling, incineration and landfill) model for the projections, which is a combination of two IPCC models parametrized for Hungarian circumstances and supplemented with a self-developed recycling and waste-route-selection submodule. The model runs covered the period 2020–2130. According to the results, the combined scenario with bundled mitigation activities had the largest mitigation potential in the modelled period, resulting in 32% emission reduction by 2050 as compared to the business-as-usual scenario. Amongst individual mitigation activities, increased recycling rates had the largest mitigation effect. The lifetime extension of particleboard can be a complementary measure to support climate mitigation efforts, along with the concept of cascade use and that of circular bioeconomy. Results showed that landfilled wood waste is a significant source of CH4 emissions on the long term; thus, incineration of wood waste is preferable to landfilling.}, year = {2023}, eissn = {2071-1050} } @article{MTMT:33753824, title = {Az erdészeti tudományok története Magyarországon- fejezetkivonatok I.}, url = {https://m2.mtmt.hu/api/publication/33753824}, author = {Borovics, Attila and Csóka, György and Führer, Ernő and Mátyás, Csaba}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {158}, unique-id = {33753824}, issn = {1215-0398}, year = {2023}, pages = {113-113}, orcid-numbers = {Csóka, György/0000-0001-9132-4825} } @{MTMT:33725631, title = {Agrárerdészeti köztes termesztési rendszerek hozamvizsgálatai és a földegyenérték-arány meghatározása}, url = {https://m2.mtmt.hu/api/publication/33725631}, author = {Honfy, Veronika and Borovics, Attila}, booktitle = {I.Magyar Agrártudományi Doktoranduszok Szimpóziuma 2023}, unique-id = {33725631}, year = {2023}, pages = {39} } @article{MTMT:33719391, title = {Trends of Forest Harvesting Ages by Ownership and Function and the Effects of the Recent Changes of the Forest Law in Hungary}, url = {https://m2.mtmt.hu/api/publication/33719391}, author = {Kottek, Péter and Király, Éva Ilona and Mertl, Tamás and Borovics, Attila}, doi = {10.3390/f14040679}, journal-iso = {FORESTS}, journal = {FORESTS}, volume = {14}, unique-id = {33719391}, issn = {1999-4907}, abstract = {To determine the optimum time to harvest the trees is one of the most interesting problems in the economics of forest resources. It is highly debated whether forests in the Northern hemisphere should be used as carbon sinks or harvested more for long- or short-term wood use for carbon storage in long-lived wood products and for the use of bioenergy. In our study we examined the trend of the cutting ages by tree species, ownership and function in the period of 2006–2021 based on the data of the National Forestry Database (NFD). We also examined whether any changes in the effective rotation linked to the change of the Hungarian Forest Act in 2017 could be observed. We concluded that there were two main sub-groups in the case of which different trends applied. In the case of state-owned forests and indigenous species with a long rotation period, the actual harvesting ages had an increasing trend in the last fifteen years, while in the case of some species with short rotation periods and lower levels of naturalness, the cutting ages in private forests had a decreasing trend. The rotation period of black locust (Robinia pseudoacacia) showed a decreasing trend with a significant decrease in private production forests between years 2016 and 2021. This implies that since the more permissive regulation, the management of private black locust stands has moved towards the economically more profitable 20 years rotation cycle. We concluded that the new Forest Act of 2017 can be regarded as an important step towards the separation of forest functions, which means that the role of state-owned forests and forests with high nature conservation value is to protect biodiversity, provide ecosystem services and mitigate climate change through carbon storage in trees, dead wood and in the soil, while the role of forest plantations and forests with lower level of naturalness is to provide timber which is a climate-friendly resource, and which can contribute to climate change mitigation through long-term carbon storage in wood products, wooden buildings and through the substitution of fossil products and fossil fuels.}, keywords = {ecosystem services; Wood products; Property rights; climate change mitigation; Carbon storage; forest law; private forests; forest rotation age; forest management purposes; cutting age prescriptions}, year = {2023}, eissn = {1999-4907} } @book{MTMT:33681483, title = {Soproni Egyetem 2022. évi szervezeti karbonlábnyom kalkulációja}, url = {https://m2.mtmt.hu/api/publication/33681483}, author = {Polgár, András and Elekné Fodor, Veronika and Zsidákovits, N. and Vágvölgyi, Andrea and Vityi, Andrea and Kovács, Zoltán and Borovics, Attila and Lakatos, Ferenc and Fábián, Attila}, publisher = {University of Sopron}, unique-id = {33681483}, year = {2023}, orcid-numbers = {Vityi, Andrea/0000-0002-2035-1866} } @article{MTMT:33638403, title = {Genome-wide SNP discovery in native American and Hungarian Robinia pseudoacacia genotypes using next-generation double-digest restriction-site-associated DNA sequencing (ddRAD-Seq)}, url = {https://m2.mtmt.hu/api/publication/33638403}, author = {Köbölkuti, Zoltán Attila and Tóth, Endre György and Keserű, Zsolt and Fike, John H. and Bolla, Bence Kálmán and Ábri, Tamás and Borovics, Attila and Benke, Attila and Cseke, Klára}, doi = {10.1007/s11295-023-01589-8}, journal-iso = {TREE GENET GENOMES}, journal = {TREE GENETICS & GENOMES}, volume = {19}, unique-id = {33638403}, issn = {1614-2942}, abstract = {Robinia pseudoacacia L. (commonly known as black locust) is an economically and environmentally important plant, native to the eastern USA, and introduced into several European countries, including Hungary. An early successional leguminous tree, the black locust is characterized by tolerance to degraded sites, rapid growth rate, dense and rot-resistant wood, and heavy flowering. Due to its economic potential and environmental impact, the historic Hungarian breeding strategy targeted not only increased wood production but also in wood and honey-production quality. However, because many important features of the species are under polygenic control, genome-wide genetic data provided by high-throughput sequencing technology could make possible the identification of gene variants with identifiable functional effects on complex traits. Furthermore, the evaluation of the breeding efforts carried out so far would be also achievable, by comparing bred/selected genotypes with those from the original habitat. This paper provides a genomic dataset with highly variable SNP markers from native American and Hungarian Robinia pseudoacacia L. individuals. These SNP loci can be used to assess genetic differentiation, and to detect signatures of polygenic determination of economically important traits, providing a basis for further research into this species.}, year = {2023}, eissn = {1614-2950}, orcid-numbers = {Keserű, Zsolt/0000-0003-1123-8447; Fike, John H./0000-0002-7371-3007; Ábri, Tamás/0000-0002-0317-0975} } @article{MTMT:33609226, title = {Klímamitigáció és alkalmazkodás a magyar erdőiparban}, url = {https://m2.mtmt.hu/api/publication/33609226}, author = {Borovics, Attila and Király, Éva Ilona}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {158}, unique-id = {33609226}, issn = {1215-0398}, year = {2023}, pages = {5-9} } @article{MTMT:33601154, title = {The Effect of Tree Spacing on Yields of Alley Cropping Systems—A Case Study from Hungary}, url = {https://m2.mtmt.hu/api/publication/33601154}, author = {Honfy, Veronika and Pödör, Zoltán and Keserű, Zsolt and Rásó, János and Ábri, Tamás and Borovics, Attila}, doi = {10.3390/plants12030595}, journal-iso = {PLANTS-BASEL}, journal = {PLANTS-BASEL}, volume = {12}, unique-id = {33601154}, year = {2023}, eissn = {2223-7747}, orcid-numbers = {Pödör, Zoltán/0000-0001-5557-5643; Ábri, Tamás/0000-0002-0317-0975} } @article{MTMT:33206221, title = {In silico analysis of key regulatory networks related to microfibril angle in Populus trichocarpa Hook.}, url = {https://m2.mtmt.hu/api/publication/33206221}, author = {Köbölkuti, Zoltán Attila and Benke, Attila and Cseke, Klára and Borovics, Attila and Tóth, Endre György}, doi = {10.1007/s11756-022-01238-w}, journal-iso = {BIOLOGIA}, journal = {BIOLOGIA (BRATISLAVA)}, volume = {78}, unique-id = {33206221}, issn = {0006-3088}, abstract = {Dissection of regulatory network that control wood structure is highly challenging in functional genomics. Nevertheless, due to the availability of genomic, transcriptomic and proteomic sequences, a large amount of information is available for use in achieving this goal. MicroRNAs, which compose a class of small non-coding RNA molecules that inhibit protein translation by targeting mRNA cleavage sites and thus regulate a wide variety of developmental and physiological processes in plants, are important parts of this regulatory network. These findings and the availability of sequence information have made it possible to carry out an in silico analysis to predict and annotate miRNAs and their target genes associated with an important factor affecting wood rigidity, microfibril angle (MFA), throughout the Populus trichocarpa Hook. genome. Our computational approach revealed miRNAs and their targets via ESTs, sequences putatively associated with microfibril angle. In total, 250 miRNAs were identified as RNA molecules with roles in the silencing and post-transcriptional regulation of the expression of nine genes. We found SHY2, IAA4 (ATAUX2–11), BZIP60, AP2, MYB15, ABI3, MYB17, LAF1 and MYB28 as important nodes in a network with possible role in MFA determination. Other co-expressed genes putatively involved in this regulatory system were also identified by construction of a co-expression network. The candidate genes from this study may help unravel the regulatory networks putatively linked to microfibril angle.}, year = {2023}, eissn = {1336-9563}, pages = {675-688} } @article{MTMT:34050147, title = {Szárazságtűrésben szerepet játszó SNP-k azonosítása kocsánytalan tölgy populációkban: alapkutatási eredmények a fenntartható tölgygazdálkodásért}, url = {https://m2.mtmt.hu/api/publication/34050147}, author = {Benke, Attila and Köbölkuti, Zoltán Attila and Cseke, Klára and Borovics, Attila and Tóth, Endre György}, doi = {10.17164/EK.2022.05}, journal-iso = {ERDÉSZETTUD KÖZL}, journal = {ERDÉSZETTUDOMÁNYI KÖZLEMÉNYEK}, volume = {12}, unique-id = {34050147}, issn = {2062-6711}, abstract = {Állományalkotó fafajaink genetikai állományban fellelhetőek az alkalmazkodási folyamatok lenyomatai, amelyek fontos ismereteket szolgáltathatnak a klímaadaptációt segítő erdőművelési stratégiák meghatározásához. Jelen kutatásunk során 18 közép- és délkelet-európai kocsánytalan tölgy [Quercus petraea (Matt.) Liebl.] populáció egyedeiben kimutatott SNP-k (egypontos nukleotid eltérések) és zárvatermő növények genomjában meghatározott, szárazságtűréssel kapcsolatba hozható szekvenciák kocsányos tölgy (Quercus robur L.) referencia genomra történő térképezését végeztük el, meghatározva így azon SNP-k csoportját, amelyek kapcsolatba hozhatók a szárazsági stresszválaszban szerepet játszó folyamatokkal. A kiugró FST értékkel bíró marker lókuszok és összesen 94 klimatikus változó bevonásával végzett regresszióanalízis során 16 erősen szignifikáns kapcsolatot mutattunk ki egyes génhelyek és néhány, csapadék vagy hőmérséklet alapú környezeti változó között. A szárazság szelekció alatt álló SNP-k kimutatása számos további, a fenntartható tölgygazdálkodást megalapozó kutatás alapját képezheti a jövőben.}, keywords = {SNP marker; kocsánytalan tölgy; szárazság szelekció; genom-környezet asszociáció}, year = {2022}, pages = {77-90} } @article{MTMT:34012272, title = {A FAIPARI FOLYAMATOK SZÉNLÁBNYOM-ELEMZÉSÉHEZ KAPCSOLÓDÓ LOGISZTIKAI ÉS ENERGIAFELHASZNÁLÁSI KONVERZIÓS FAKTOROK MEGADÁSA}, url = {https://m2.mtmt.hu/api/publication/34012272}, author = {Kocsis, Zoltán and Németh, Gábor and Börcsök, Zoltán and Polgár, András and Király, Éva Ilona and Kóczán, Zsófia and Borovics, Attila}, doi = {10.17164/EK.2022.04}, journal-iso = {ERDÉSZETTUD KÖZL}, journal = {ERDÉSZETTUDOMÁNYI KÖZLEMÉNYEK}, volume = {12}, unique-id = {34012272}, issn = {2062-6711}, abstract = {A klímaváltozás napjaink egyik kulcsfontosságú problémaköre. Kialakulásának egyik fő oka a légkörbe kibocsátott üvegházhatású gázok mennyisége, ami jelentős részben ipari-logisztikai tevékenységből származik. Az üvegházhatású gázok közül a legfontosabb és egyben az egyik leggyakoribb a szén-dioxid. A klímaváltozás hatásainak csökkentése érdekében, tehát ismerni kell a szén-dioxid keletkezésének helyeit, mennyiségét és a környezetre gyakorolt hatásait. A kutatás célja a faipari folyamatok szénlábnyom-meghatározását szolgáló ún. konverziós faktorok megadása, majd egy egységesen alkalmazható számítási módszertan kidolgozása. A szerzők az irodalmi kutatómunka során vizsgálták a közúti szállításból és a faipari vállalatok villamos-, és hőfelhasználásából származó szén-dioxid-kibocsátásokat, majd megadták az ezeket jellemző konverziós faktorokat szén-dioxid-egyenrétékben (CO2e) kifejezve. A bemutatott módszertan a gyakorlat számára adaptálható és hozzájárul a vállalati szén-dioxidkibocsátás szisztematikus és tudományos alapokon nyugvó meghatározásához.}, keywords = {szén-dioxid; klímaváltozás; logisztika; szén-dioxid-egyenérték; szénlábnyom; villamosenergia}, year = {2022}, pages = {57-73} } @article{MTMT:33547597, title = {Erdőalapú klímamitigáció és alkalmazkodás Európában II.}, url = {https://m2.mtmt.hu/api/publication/33547597}, author = {Borovics, Attila and Király, Éva Ilona}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {33547597}, issn = {1215-0398}, year = {2022}, pages = {439-441} } @CONFERENCE{MTMT:33395463, title = {Cereal production in alley cropping systems}, url = {https://m2.mtmt.hu/api/publication/33395463}, author = {Honfy, Veronika and Pödör, Zoltán and Keserű, Zsolt and Borovics, Attila}, booktitle = {Proceedings of the 5th World Congress on Agroforestry: „Transitioning to a Viable World". Quebec, Canada, July 17-20, 2022}, unique-id = {33395463}, year = {2022}, pages = {338-338}, orcid-numbers = {Pödör, Zoltán/0000-0001-5557-5643} } @article{MTMT:33286434, title = {Erdőalapú klímamitigáció és alkalmazkodás Európában I.}, url = {https://m2.mtmt.hu/api/publication/33286434}, author = {Borovics, Attila and Király, Éva Ilona}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {33286434}, issn = {1215-0398}, year = {2022}, pages = {374-377} } @inbook{MTMT:33272260, title = {Az erdészeti kutatás intézményei}, url = {https://m2.mtmt.hu/api/publication/33272260}, author = {Borovics, Attila and Csóka, György and Führer, Ernő and Mátyás, Csaba}, booktitle = {Az erdészeti tudományok története Magyarországon}, unique-id = {33272260}, year = {2022}, pages = {8-19}, orcid-numbers = {Csóka, György/0000-0001-9132-4825} } @inbook{MTMT:33272215, title = {Energetikai célú faültetvények}, url = {https://m2.mtmt.hu/api/publication/33272215}, author = {Borovics, Attila and Benke, Attila}, booktitle = {Az erdészeti tudományok története Magyarországon}, unique-id = {33272215}, year = {2022}, pages = {201-202} } @inbook{MTMT:33272171, title = {Döntéstámogató rendszer fejlesztése}, url = {https://m2.mtmt.hu/api/publication/33272171}, author = {Mátyás, Csaba and Borovics, Attila}, booktitle = {Az erdészeti tudományok története Magyarországon}, unique-id = {33272171}, year = {2022}, pages = {84-89} } @inbook{MTMT:33263265, title = {Agrárerdészeti termesztési technológiák a gyakorlatban (mezővédő erdősávok, együttes mezőgazdasági növény- és fatermesztés, fás legelők)}, url = {https://m2.mtmt.hu/api/publication/33263265}, author = {Borovics, Attila and Frank, Norbert and Rásó, János and Keserű, Zsolt}, booktitle = {Az erdészeti tudományok története Magyarországon}, unique-id = {33263265}, year = {2022}, pages = {204-209} } @inbook{MTMT:33231696, title = {Az agrárerdészeti rendszerek jellemzői}, url = {https://m2.mtmt.hu/api/publication/33231696}, author = {Borovics, Attila and Keserű, Zsolt}, booktitle = {Az erdészeti tudományok története Magyarországon}, unique-id = {33231696}, year = {2022}, pages = {203-203} } @inproceedings{MTMT:33226920, title = {Lehetőségek az agrárerdészetben a változó klímában}, url = {https://m2.mtmt.hu/api/publication/33226920}, author = {Honfy, Veronika and Király, Éva Ilona and Rásó, János and Keserű, Zsolt and Borovics, Attila}, booktitle = {ALFÖLDI ERDŐKÉRT EGYESÜLET KUTATÓI NAP - TUDOMÁNYOS EREDMÉNYEK A GYAKORLATBAN}, unique-id = {33226920}, year = {2022}, pages = {101-107} } @article{MTMT:33225785, title = {A Magyarország erdeit 2022 nyarán sújtó aszáIy távérzékelt felmérése}, url = {https://m2.mtmt.hu/api/publication/33225785}, author = {Molnár, Tamás and Móricz, Norbert and Borovics, Attila}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {33225785}, issn = {1215-0398}, year = {2022}, pages = {330-332} } @inbook{MTMT:33216776, title = {A nyárak és füzek nemesítése}, url = {https://m2.mtmt.hu/api/publication/33216776}, author = {Benke, Attila and Borovics, Attila and Mátyás, Csaba}, booktitle = {Az erdészeti tudományok története Magyarországon}, unique-id = {33216776}, year = {2022}, pages = {130-136} } @article{MTMT:33204929, title = {Carbon Sequestration in Harvested Wood Products in Hungary an Estimation Based on the IPCC 2019 Refinement}, url = {https://m2.mtmt.hu/api/publication/33204929}, author = {Király, Éva Ilona and Börcsök, Zoltán and Kocsis, Zoltán and Németh, Gábor and Polgár, András and Borovics, Attila}, doi = {10.3390/f13111809}, journal-iso = {FORESTS}, journal = {FORESTS}, volume = {13}, unique-id = {33204929}, issn = {1999-4907}, abstract = {As wood products in use store carbon and can contribute to reducing the concentration of atmospheric CO2, the improved and enhanced use of wood products can be a successful measure in climate change mitigation. This study estimates the amount of carbon stored in the Hungarian harvested wood product (HWP) pool and the CO2 emissions and removals of the pool. According to our results, the total carbon stock of the Hungarian HWP pool is continuously increasing. We estimated the total carbon stock of the HWP pool to be 17,306 kt C in the year 2020. Our results show that the HWP pool in Hungary is a carbon sink in most parts of the time series, with some years where it turns to a source of emissions. We carried out a simple projection up to 2070, assuming a constant inflow for the projected years that is equal to the average inflow of the last five historic years. This resulted in a decreasing trend in CO2 removals, with removals already very close to zero in 2070. We concluded that in order to achieve significant future carbon sinks in the HWP pool technological improvements are needed, such as increasing the lifetime of the wood products and expanding the carbon storage capacity of wood products by reusing and recycling wood in a cascade system.}, year = {2022}, eissn = {1999-4907} } @article{MTMT:33144355, title = {A klímaváltozás és a francia erdők. Van-e (még) megoldás?}, url = {https://m2.mtmt.hu/api/publication/33144355}, author = {Somogyi, Norbert and Borovics, Attila}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {33144355}, issn = {1215-0398}, year = {2022}, pages = {302-305} } @inproceedings{MTMT:33139915, title = {Bending test results of plantation poplar clones}, url = {https://m2.mtmt.hu/api/publication/33139915}, author = {Báder, Mátyás and Németh, Róbert and Benke, Attila and Köbölkuti, Zoltán Attila and Borovics, Attila and Takács, Dávid}, booktitle = {10TH HARDWOOD CONFERENCE PROCEEDINGS}, unique-id = {33139915}, year = {2022}, pages = {75-82}, orcid-numbers = {Báder, Mátyás/0000-0002-1242-7664; Takács, Dávid/0000-0003-1039-7366} } @book{MTMT:33094686, title = {Soproni Egyetem 2021. évi szervezeti karbonlábnyom kalkulációja. II. ütem}, url = {https://m2.mtmt.hu/api/publication/33094686}, author = {Polgár, András and Elekné Fodor, Veronika and Zsidákovits, N. and Vágvölgyi, Andrea and Vityi, Andrea and Kovács, Zoltán and Borovics, Attila and Lakatos, Ferenc and Fábián, Attila}, publisher = {University of Sopron}, unique-id = {33094686}, year = {2022}, orcid-numbers = {Vityi, Andrea/0000-0002-2035-1866} } @article{MTMT:33070127, title = {A 90 éves dr. Bondor Antal köszöntése}, url = {https://m2.mtmt.hu/api/publication/33070127}, author = {Führer, Ernő and Borovics, Attila}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {33070127}, issn = {1215-0398}, year = {2022}, pages = {272-273} } @article{MTMT:33047334, title = {Az erdőgazdálkodás szerepe a klímavédelemben az IPCC értékelő jelentése szerint}, url = {https://m2.mtmt.hu/api/publication/33047334}, author = {Borovics, Attila and Király, Éva Ilona}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {33047334}, issn = {1215-0398}, year = {2022}, pages = {265-268} } @article{MTMT:32904541, title = {Contribution of GIS in the Identification and Mapping of Natural Forest Habitats: Case Study of the Forests of El Kala, Wilaya of El Tarf, Algeria}, url = {https://m2.mtmt.hu/api/publication/32904541}, author = {Zanndouche, Ouahid and Derridj, Arezki and Belhadj-Aissa, Mostefa and Borovics, Attila and Somogyi, Norbert and Abla, Safia and Larbi, Mohamed Yamine and Hamdache, Achour and Kahouadji, Naima}, doi = {10.55362/IJE/2022/3579}, journal-iso = {Indian Journal of Ecology}, journal = {Indian Journal of Ecology}, volume = {49}, unique-id = {32904541}, issn = {0304-5250}, year = {2022}, pages = {682-688} } @article{MTMT:32846071, title = {A klímaváltozáshoz alkalmazkodás támogatása az erdészetben: Az Agrárklíma döntéstámogató rendszer}, url = {https://m2.mtmt.hu/api/publication/32846071}, author = {Mátyás, Csaba and Bidló, András and Czimber, Kornél and Gálos, Borbála and Gribovszki, Zoltán and Führer, Ernő and Illés, Gábor and Borovics, Attila}, doi = {10.56474/legkor.2022.1.1}, journal-iso = {LÉGKÖR}, journal = {LÉGKÖR: AZ ORSZÁGOS METEOROLÓGIAI INTÉZET SZAKMAI TÁJÉKOZTATÓJA}, volume = {67}, unique-id = {32846071}, issn = {0133-3666}, year = {2022}, pages = {4-11} } @article{MTMT:32801614, title = {ErdőLab: a Soproni Egyetem erdészeti és faipari projektje. Fókuszban az éghajlatváltozás mérséklése}, url = {https://m2.mtmt.hu/api/publication/32801614}, author = {Borovics, Attila}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {32801614}, issn = {1215-0398}, year = {2022}, pages = {114-115} } @article{MTMT:32769290, title = {Szinkronban a gyakorlat és a kutatás az akáctermesztés innovációs fejlesztésében}, url = {https://m2.mtmt.hu/api/publication/32769290}, author = {Borovics, Attila and Keserű, Zsolt and Rédei, Károly Miklós and Ábri, Tamás and Rásó, János and Támba, Miklós}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {32769290}, issn = {1215-0398}, year = {2022}, pages = {86-89}, orcid-numbers = {Ábri, Tamás/0000-0002-0317-0975} } @article{MTMT:32712995, title = {Magánerdő-gazdálkodás Pyrénées-Atlantiques megyében}, url = {https://m2.mtmt.hu/api/publication/32712995}, author = {Somogyi, Norbert and Borovics, Attila and MAITIA, Mikael and PARGADE-RENAULT, Julie}, journal-iso = {ERDÉSZETI LAPOK}, journal = {ERDÉSZETI LAPOK}, volume = {157}, unique-id = {32712995}, issn = {1215-0398}, year = {2022}, pages = {55-59} } @article{MTMT:32654118, title = {Comparison of juvenile, drought tolerant black locust (Robinia pseudoacacia L.) clones with regard to plant physiology and growth characteristics in Eastern Hungary: early evaluation}, url = {https://m2.mtmt.hu/api/publication/32654118}, author = {Ábri, Tamás and Keserű, Zsolt and Borovics, Attila and Rédei, Károly Miklós and Csajbók, József}, doi = {10.3390/f13020292}, journal-iso = {FORESTS}, journal = {FORESTS}, volume = {2022}, unique-id = {32654118}, issn = {1999-4907}, year = {2022}, eissn = {1999-4907}, orcid-numbers = {Ábri, Tamás/0000-0002-0317-0975; Csajbók, József/0000-0003-0281-2590} } @techreport{MTMT:33262396, title = {Megalapozó tanulmány az Országfásítási Program tervezéséhez}, url = {https://m2.mtmt.hu/api/publication/33262396}, author = {Borovics, Attila and Lomniczi, Gergely and Schiberna, Endre and Benke, Attila and Honfy, Veronika and Keserű, Zsolt and Mertl, Tamás and Nagy, Imre and Illés, Gábor and Führer, Ernő and Marosi, György and Keszthelyi, Szilárd and Somogyi, Zoltán and Juhász, István and Lett, Béla and László, Diána and Hegedűs, Attila and Bodnár, Mihály and Kovács, Zoltán and Alpár, Tibor László and Tóth, János}, unique-id = {33262396}, year = {2021}, orcid-numbers = {Schiberna, Endre/0000-0001-6947-6312} }