Coordinated regulation of tomato sugar accumulation by relative humidity and field capacity through source–sink–transport balance
Wei Han, Xindi Zhang, Yinghui Hao, Chenxi Sun, Xiaoxin Lin

TL;DR
This study shows how air humidity and soil moisture affect sugar levels in tomatoes by influencing photosynthesis, water movement, and sugar metabolism.
Contribution
The study reveals how relative humidity and field capacity jointly regulate tomato sugar accumulation through source-sink-transport balance.
Findings
Low soil moisture (40% FC) increased sugar metabolism enzyme activity and promoted sugar accumulation.
High air humidity (95% RH) reduced photosynthesis, stomatal conductance, and sugar content in tomatoes.
Both tomato cultivars achieved highest sugar content under 40% RH and 40% FC conditions.
Abstract
To clarify the regulatory mechanism underlying the interaction between air relative humidity (RH) and soil moisture (field capacity, FC) on sugar accumulation in tomato fruits, this study used two tomato cultivars, ‘Xiuzhen’ and ‘Jinhong 208’, as materials. Four RH levels (40%, 60%, 80%, and 95%) and two FC levels (40% and 80% FC) were established in artificial climate chambers to systematically analyze the relationships among photosynthesis, transpiration, vascular transport, sugar metabolism enzyme activity, and sugar accumulation. The results showed that low soil moisture (40% FC) reduced the photosynthetic rate but significantly increased sugar metabolism enzyme activity, thereby promoting sugar accumulation. In contrast, high soil moisture (80% FC) was associated with higher photosynthetic rates but lower sugar-metabolizing enzyme activity. High air humidity (95% RH) markedly…
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Taxonomy
TopicsPlant nutrient uptake and metabolism · Irrigation Practices and Water Management · Plant Water Relations and Carbon Dynamics
