Association between Empirically Estimated Monsoon Dynamics and Other Weather Factors and Historical Tea Yields in China: Results from a Yield Response Model

Boehm, Rebecca; Cash, Sean B.; Anderson, Bruce T.; Ahmed, Selena; Griffin, Timothy S.; Robbat, Albert; Stepp, John Richard; Wang, Han; Hazel, Matt; Orians, Colin M.

doi:10.3390/cli4020020

Cited by 56 publications

(40 citation statements)

References 47 publications

(76 reference statements)

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“…Factors such as frost, hailstorms, and pests, are not included, though losses incurred by such events can be substantial for tea [2]. The timing of climatic events, such as the onset and retreat dates of the seasonal rains, may also play a role in historical and future tea production [32] and should be investigated in future studies.…”

Section: Discussionmentioning

confidence: 99%

Kenyan tea is made with heat and water: how will climate change influence its yield?

Rigden

Ongoma

Huybers

2020

Environ. Res. Lett.

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Tea is the most consumed beverage in the world apart from water. Climate change is anticipated to affect the tea industry, but quantified large-scale predictions of how temperature and water availability drive tea production is lacking in many regions. Here, we use satellite-derived observations to characterize the response of tea yield to water and heat stress from 2008 to 2016 across Kenya, the third largest producer of tea. We find that solar-induced fluorescence captures the interannual variability in tea yield remarkably well (Pearson's correlation coefficient, r=0.93), and that these variations are largely driven by the daily dynamics of soil moisture and temperature. Considering rising temperature in isolation suggests that yields in 2040-2070 would decrease by 10% relative to 1990-2020 (ranging between −15% to −4% across 23 models), but most climate models also simulate an increase in soil moisture over this interval that would offset loss, such that yields decrease by only 5% (ranging between −12% to +1%). Our results suggest that adaptation strategies to better conserve soil moisture would help avert damage, but such changes require advanced planning due to the longevity of a tea plant, underscoring the importance of better predicting soil moisture over the coming decades.

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Section: Discussionmentioning

confidence: 99%

Kenyan tea is made with heat and water: how will climate change influence its yield?

Rigden

Ongoma

Huybers

2020

Environ. Res. Lett.

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“…Due to the few papers and the multitude of regions and methods applied, there are hardly any conflicting results. From the perspective of the cited references, there are four papers standing out with 10 or more citations until present [5,27,30,31].…”

Section: Discussionmentioning

confidence: 99%

“…The publications by Wijeratne [5,13] discuss the impact of climate change on tea production in Sri Lanka, whereas the papers by Ahmed [9,10,27] focus on the impact of climate change on tea quality in general. The other key papers deal with the impact of global warming on the tea production in South China [12,[28][29][30], Northeast India [6,7], Sri Lanka [14], and Eastern and South Africa [31][32][33]. Some additional and highly relevant publications have been identified by considering the citing papers and by reference analysis via RPYS (see below).…”

Section: Publications Citing a Marker Paper: Rpys-comentioning

confidence: 99%

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Global Warming and Tea Production—The Bibliometric View on a Newly Emerging Research Topic

Marx

Haunschild

Bornmann

2017

Climate

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Abstract:In this study, we analyzed the newly emerging research field of climate change in combination with tea production. We adapted a valid search query to cover the relevant literature as completely as possible and to exclude irrelevant literature. The search resulted in a publication set of 14 key papers dealing with the implications of climate change for tea production as well as 71 papers citing at least one of the 14 key papers. The VOSviewer software was used for revealing the thematic content of the publication set based on the analysis of the keywords. The analysis illustrates the importance of climate change for tea production and mirrors the emerging discussion on climate change impacts and adaptation strategies. Questions regarding the historical context of research fields or specific research topics can be answered by using a bibliometric method called "Reference Publication Year Spectroscopy" (RPYS). The standard RPYS, as well as RPYS-CO, which is based on co-citations of a marker paper, were applied and the most important publication in the historical context of climate change in combination with tea production was identified: both RPYS analyses revealed a paper by M.A. Wijeratne working at the Tea Research Institute (TRI) in Sri Lanka as the starting point of the newly emerging research topic. Currently, the research topic is stimulated by research projects and publications of Selena Ahmed at the Montana State University (USA).

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“…Consequent impacts of climate change on employment opportunities are likely to be a major concern to governments of developing nations because plantation sectors provide regular employment for a significant percentage of the agricultural workforce in countries such as Sri Lanka, Kenya, Vietnam and Bangladesh (Wijeratne ; Boehm et al . ).…”

Section: Introductionmentioning

confidence: 97%

The impact of climate change on labour demand in the plantation sector: the case of tea production in Sri Lanka

Gunathilaka

Smart

Fleming

et al. 2018

Aus J Agri & Res Econ

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Limited opportunities for crop switching and lengthy preharvesting periods make the plantation sector particularly vulnerable to climate change. Surprisingly, however, the economic consequences of climate change on plantation crops are seldom analysed. Drawing on a unique primary panel data set from a representative cross section of 35 tea estates in Sri Lanka over the period 2002-2014, this study implements a structural model of estate profit maximisation to estimate the elasticity of labour demand with respect to different components of weather. Results indicate a negative relationship between labour demand and rainfall in the south-west monsoon, the north-east monsoon and the second inter-monsoon. A positive relationship is found between labour demand and rainfall in the first inter-monsoon. Overall, predicted changes in rainfall by 2050 are anticipated to reduce labour demand by approximately 1,175,000 person-days per year across Sri Lanka's tea plantation sector. This is likely to have considerable social and welfare implications, particularly for the Indian Tamil women who comprise the majority of the sector's workforce.

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Association between Empirically Estimated Monsoon Dynamics and Other Weather Factors and Historical Tea Yields in China: Results from a Yield Response Model

Cited by 56 publications

References 47 publications

Kenyan tea is made with heat and water: how will climate change influence its yield?

Kenyan tea is made with heat and water: how will climate change influence its yield?

Global Warming and Tea Production—The Bibliometric View on a Newly Emerging Research Topic

The impact of climate change on labour demand in the plantation sector: the case of tea production in Sri Lanka

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