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Climate Warming-Induced Changes in Plant Phenology in the Most Important Agricultural Region of Romania

Author

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  • Georgeta Bandoc

    (Faculty of Geography, University of Bucharest, 1 Nicolae Bălcescu Str., 010041 Bucharest, Romania
    Academy of Romanian Scientists, 54 Splaiul Independentei Str., 050094 Bucharest, Romania)

  • Adrian Piticar

    (Faculty of Aeronautical Management, Henry Coanda Air Force Academy, 160 Mihai Viteazul Str., 500183 Brasov, Romania)

  • Cristian Patriche

    (Geographic Research Center, Iaşi Division, Romanian Academy, 8 Carol I Str., 700505 Iaşi, Romania)

  • Bogdan Roșca

    (Geographic Research Center, Iaşi Division, Romanian Academy, 8 Carol I Str., 700505 Iaşi, Romania)

  • Elena Dragomir

    (Faculty of Geography, University of Bucharest, 1 Nicolae Bălcescu Str., 010041 Bucharest, Romania
    Center for Coastal Research and Environmental Protection, 1 Nicolae Bălcescu Str., 010041 Bucharest, Romania)

Abstract

Changes in plant phenology are a direct indicator of climate change and can produce important consequences for agricultural and ecological systems. This study analyzes changes in plant phenology in the 1961–2010 period (for both the entire interval and in three successive multi-decades: 1961–1990, 1971–2000 and 1981–2010) in southern and southeastern Romania, the country’s most important agricultural region. The analysis is based on mean monthly air temperature values collected from 24 regional weather stations, which were used for extracting the length (number of days) of phenophases (growing season onset, budding–leafing, flowering, fruiting, maturing, dissemination of seeds, start of leaf loss, end of leaf loss) and of the overall climatic growing season (CGS, which includes all phenophases), by means of the histophenogram method. Using a number of reliable statistical tools (Mann–Kendall test, Sen’s slope estimator and the regression method) for exploring annual trends and net (total) changes in the length of the phenological periods, as well as for detecting the climate—growing season statistical relationships, our results revealed complex phenology changes and a strong response in phenological dynamics to climate warming. Essentially, a lengthening of all phenophases (maximal in the maturing period, in terms of statistical significance and magnitude of trends—on average 0.48 days/yr/24 days net change in the 1961–2010 period, or even 0.94 days/yr/28 days net change in the 1971–2000 sub-period) was noticed, except for the fruiting and dissemination phenophases, which were dominated by negative trends in the number of days, but partially statistically significant (at a confidence level threshold of at least 90%). The CGS exhibited overall increasing trends, with an average of 0.21 days/yr/11 days net change in the 1961–2010 interval, and even of 0.90 days/yr/27 days net change in the 1981–2010 sub-period. Moreover, based on the slope values obtained upon application of a linear regression to mean temperature and CGS, we discovered that a 1 °C increase in climate warming accounted for a remarkable lengthening of the CGS, on average of 14 days between 1961 and 2010, and of 16 days between 1981 and 2010. Our results can help improve the adaptation of agroecological systems to future climate change.

Suggested Citation

  • Georgeta Bandoc & Adrian Piticar & Cristian Patriche & Bogdan Roșca & Elena Dragomir, 2022. "Climate Warming-Induced Changes in Plant Phenology in the Most Important Agricultural Region of Romania," Sustainability, MDPI, vol. 14(5), pages 1-23, February.
    • Handle: RePEc:gam:jsusta:v:14:y:2022:i:5:p:2776-:d:759659
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    References listed on IDEAS

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    1. Guanjie Jiao & Xiawei Shentu & Xiaochen Zhu & Wenbo Song & Yujia Song & Kexuan Yang, 2022. "Utility of Deep Learning Algorithms in Initial Flowering Period Prediction Models," Agriculture, MDPI, vol. 12(12), pages 1-17, December.

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