Climate Change in the Provenance Regions of Romania over the Last 70 Years: Implications for Forest Management

Mihai, Georgeta; Alexandru, Alin-Madalin; Niţă, Ion-Andrei; Bîrsan, Marius-Victor

doi:10.3390/f13081203

Cited by 17 publications

(8 citation statements)

References 60 publications

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“…[34,38]. Hence, the selected elm trees of the Pădurea Verde trial may be used for local restoration initiatives, but at the same time, they need to be further tested in several different locations in Romania, under new climate-changing conditions, to evaluate their suitability [36,[93][94][95][96].…”

Section: Discussionmentioning

confidence: 99%

Selection of Elms Tolerant to Dutch Elm Disease in South-West Romania

et al. 2022

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Ophoiostoma novo- ulmi continues to be one of the most dangerous invasive fungi, destroying many autochthonous elm forests and cultures throughout the world. Searching for natural genotypes tolerant to Dutch Elm Disease (DED) is one of the main objectives of silviculturists all over the northern hemisphere in order to save the susceptible elms and to restore their ecosystem biodiversity. In this regard, the first trial was established between 1991 and 1994, in south-west Romania (Pădurea Verde, Timișoara), using three elm species (Ulmus minor, U. glabra, and U. laevis) with 38 provenances. A local strain of Ophiostoma novo-ulmi was used to artificially inoculate all elm variants and the DED evolution was observed. Furthermore, in 2018–2021 the trial was inventoried to understand the local genotype reaction to DED in the local environmental conditions after almost 30 years. The outcomes of the present study proved the continuous presence of the infections in the comparative culture and its proximity, but the identified pathogen had a new hybrid form (found for the first time in Romania) between O. novo-ulmi ssp. Americana x O. novo-ulmi ssp. novo-ulmi. Wych elm (U. glabra) was extremely sensitive to DED: only 12 trees (out of 69 found in 2018) survived in 2021, and only one tree could be selected according to the adopted health criteria (resistance and vigour). The field elm (U. minor) was sensitive to the pathogen, but there were still individuals that showed good health status and growth. In contrast, the European white elm (U. laevis) proved constant tolerance to DED: only 15% had been found dead or presented severe symptoms of dieback. Overall, the results of this study report the diverse reactions of the Romanian regional elm genotypes to DED over the last three decades, providing promising perspectives for improving the presence of elms in the forest ecosystems of the Carpathian basin.

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Section: Discussionmentioning

confidence: 99%

Selection of Elms Tolerant to Dutch Elm Disease in South-West Romania

et al. 2022

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“…The already changed climate has been highlighted by Mihai et al [10] for different provenances and regions in Romania, by different forest types. The authors showed that the climatic envelope of many forest species has already changed and become less suitable due to climate warming, which increases the vulnerability of species, especially at lower elevations or at the edges of their distribution.…”

Section: Summary Of Main Outputs and Findingsmentioning

confidence: 93%

Forest Functioning under Climate Warming and Future Perspectives on Forest Disturbances

Mary Petritan,

Beloiu Schwenke

2023

Forests

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The Special Issue “Impact of climate warming and disturbances on forest ecosystems” underscores the critical importance of understanding how forests respond to these environmental challenges and the legacy of past management practices. Forest ecosystems are facing significant challenges due to ongoing climate change, characterized by rising temperatures and increased frequency of extreme events. The rapid pace of climate change is altering disturbance patterns and the adaptability of forests, which have a direct impact on ecosystem services that contribute to human well-being. This Special Issue features 11 research papers from nine countries. Some key outputs from these research papers include evidence on how climate change is already impacting forest ecosystems. For instance, the climatic envelope of many forest species has shifted due to global warming, making species more vulnerable, especially in lower elevations and at the edges of their distribution. Urgent adaptive measures in forest management are necessary to address this challenge. Climate change also affects vegetation phenology, tree growth, stand productivity, reproduction rates, and stand regeneration. Remote sensing data and ecological modeling techniques play a crucial role in monitoring and understanding these changes, especially in remote regions where field measurements are limited. The rising frequency and intensity of extreme events like droughts, windstorms, and forest fires require enhanced prediction and automatic monitoring. Leveraging machine learning tools and remote sensing data is imperative. This Special Issue provides insights into the intricate relationships among forests, climate change, and human interventions. We provide further research recommendations for the quantification and automated monitoring of forest fires and the management of forests to better withstand storms and increase their resilience to climate change.

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“…Shifts to another ecosystem's climate have been observed in many forest species' climate envelopes (Mihai et al, 2022). Moreover, the warming trend has caused some plant species to expand their range while others have contracted (García-Duro et al, 2021).…”

Section: Current Warm Period (Cwp)mentioning

confidence: 99%

Last millennium climate variability in the Romanian Carpathians: a synthesis

Nogueira,

Rydval,

Begović

2023

Preprint

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The Carpathian Mountains span Central and Eastern Europe and provide vital ecosystem functions and services. For this reason, the conservation status of the Carpathians is critical due to environmental pressures such as deforestation and the impacts of climate change, which has significantly affected the region's ecosystem dynamics and communities through increased frequency of floods and landslides as well as changes in species distribution. Paleoclimatic proxy archives are essential to identifying climate trends. This paper aims to synthesize the climatic changes observed in the Romanian Carpathians in the last millennium, having paleoclimatic records as a base. During the Medieval Climate Anomaly (MCA) period in the Romanian Carpathians, wetter conditions prevailed mainly during the first part of this period, followed by a drying trend until the end of the MCA, while slightly warmer conditions were observed throughout the entire period. The timings were somewhat different between the northern and southern regions of the Romanian Carpathians. Another important climatic period, the Little Ice Age (LIA), was characterized by highly variable climatic conditions linked to forcings such as volcanic eruptions and solar activity. LIA was generally dry with intermittent episodes of heavy rains. Winter temperatures dropped between AD 1500 and 1750, while currently available proxy records suggest that summer temperatures were slightly above average. The LIA reached its coldest point in the early 19th century. Since then, Romania has been experiencing warmer conditions, during the so-called Current Warm Period (CWP), with temperatures increasing significantly after 1970, leading to negative impacts on agriculture and hydrology. While positive precipitation anomalies were recorded in the 19th and early 20th centuries, a decline in precipitation has been widely observed since 1970, with an increased occurrence of extreme climatic events. The current warm period in Romania is part of a larger trend of global warming attributed to human activities, such as fossil fuel combustion, leading to environmental and socioeconomic impacts. These paleoclimatic observations provide context for current climatic trends and emphasize the need for joint efforts by governments, NGOs, and local communities to develop adaptation and mitigation strategies in order to reduce the potential negative impacts of climate change on Romania's environment and population.

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Climate Change in the Provenance Regions of Romania over the Last 70 Years: Implications for Forest Management

Cited by 17 publications

References 60 publications

Selection of Elms Tolerant to Dutch Elm Disease in South-West Romania

Selection of Elms Tolerant to Dutch Elm Disease in South-West Romania

Forest Functioning under Climate Warming and Future Perspectives on Forest Disturbances

Last millennium climate variability in the Romanian Carpathians: a synthesis

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