Prospects of Using Tree-Ring Earlywood and Latewood Width for Reconstruction of Crops Yield on Example of South Siberia

Improvement of dendrochronological crops yield reconstruction by separate application of earlywood and latewood width chronologies succeeded in rain-fed semiarid region. (1) Background: Tree-ring width chronologies have been successfully applied for crops yield reconstruction models. We propose appl...

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Published inForests Vol. 12; no. 2; p. 174
Main Authors Babushkina, Elena, Zhirnova, Dina, Belokopytova, Liliana, Mehrotra, Nivedita, Shah, Santosh, Keler, Viktoria, Vaganov, Eugene
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.02.2021
Subjects
Agricultural production
Archives & records
Barley
Cereal crops
Cereals
Climate change
Climate variability
Crop yield
Crops
Dendrochronology
earlywood width
Hypotheses
Irrigated areas
Larix sibirica
latewood width
Low temperature
Plant breeding
Precipitation
Productivity
Rain
Reconstruction
Semi arid areas
semiarid conditions
Semiarid lands
Siberian larch
small grain crops
Spring (season)
Spring wheat
Steppes
Territory
Tree rings
tree-ring chronologies
Trees
Trends
Variation
Siberia
Russia
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Summary:Improvement of dendrochronological crops yield reconstruction by separate application of earlywood and latewood width chronologies succeeded in rain-fed semiarid region. (1) Background: Tree-ring width chronologies have been successfully applied for crops yield reconstruction models. We propose application of separated earlywood and latewood width chronologies as possible predictors improving the fitness of reconstruction models. (2) Methods: The generalized yield series of main crops (spring wheat, spring barley, oats) were investigated in rain-fed and irrigated areas in semiarid steppes of South Siberia. Chronologies of earlywood, latewood, and total ring width of Siberian larch (Larix sibirica Ledeb.) growing in forest-steppe in the middle of the study area were tested as predictors of yield reconstruction models. (3) Results: In the rain-fed territory, separation of earlywood and latewood allowed increasing variation of yield explained by reconstruction model from 17.4 to 20.5%, whereas total climatic-driven component of variation was 41.5%. However, both tree-ring based models explained only 7.7% of yield variation in the irrigated territory (climate inclusion increased it to 34.8%). Low temperature sensitivity of larch growth was the main limitation of the model. A 240-year (1780–2019) history of crop failures and yield variation dynamics were estimated from the actual data and the best reconstruction model. (4) Conclusions: Presently in the study region, breeding of the environment-resistant crops varieties compensates the increase of temperature in the yield dynamics, preventing severe harvest losses. Tree-ring based reconstructions may help to understand and forecast response of the crops to the climatic variability, and also the probability of crop failures, particularly in the rain-fed territories.
ISSN:1999-4907
1999-4907
DOI:10.3390/f12020174