Rötter, R. P., & Höhn, J. (2014). An overview of climate change impacts on crop production and its variability in Europe, related uncertainties and research challenges. (pp. 106–145). Chapter 4 in: Proceedings, FAO Expert consultation on Climate Change and Food Systems: Global implications for food security, water and trade, 5-6 Nov. 2013.
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Marton, T. (2016). Assessing the impact of agro-climatic factors and farm characteristics on the yield variation of the Norwegian fruit sector (Vol. 9 C6 -).
Abstract: Main drivers of ag. yields:–Technology–R&D (new hybrids etc.)–Weather–Etc.•Common sense and anecdotal observations (remember the Tromsø presentation) revealed extreme events tended to impact wide geographic areas•This was called the «systemic» nature of agriculture No semi-aggregation farm-level•Not the boring corn, maize, wheat fruits•No OLS-like Pearson correlation or functional form approach for conditioning spatial correlations on weather SDM•Finally, if we are smart enough to set the explanatory proxies in a meaningful way presumably we can make the distinction between the effects of, say draught and extreme heat.•And much more in policy relevance
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Rötter, P., Palosuo, T., Semenov, M., Ruiz-Ramos, M., Tao, F., Fronzek, S., et al. (2014). Designing new cereal cultivars as an adaptation measure using crop model ensembles..
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Rötter, R. P., Pirttioja, N. K., Fronzek, S., Carter, T., Palosuo, T., & et al. (2015). Impact response surface analysis of temperature and precipitation for wheat along a European transect.. Minneapolis (U.S.A).
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Rötter, R. P., Höhn, J. K., Palosuo, T., Kassie, B. T., Paff, K., Tao, F., et al. (2015). Yield gap and variability analysis for different aro-technologies for maize and wheat (YGV study).. Ithaca (U.S.A.).
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