Kanojia et al., 2024, raw data from primary and secondary metabolite analysis

The dataset includes the raw data from the metabolomics analysis of primary and secondary metabolites from fruits and leaves of Micro-Tom tomato plants in 4 different treatments:  UU - no biostimulant (unprimerd), unstressed (control plants) PU - primed with Ascophyllum nodosum extract, unstressed US - unprimed, drought-stressed PS - biostimulant-primerd, drought-stressed. The stress itself was: moderate drought (6 days without irrigation, soil field capacity ~ 50%, 6 DAP samples) severe drought (11 days without irrigation, SFC ~ 25%, 11 DAP) recovery (two days after rewatering, 13 DAP). More details on the experiment and treatments is provided in the publication itself: Kanojia et al., (2024) Physiological and molecular insights into the effect of a seaweed biostimulant on enhancing fruit yield and drought tolerance in tomato. https://doi.org/10.1016/j.stress.2024.100692

本数据集涵盖Micro-Tom番茄植株果实与叶片的初生代谢物、次生代谢物的代谢组学（metabolomics）原始分析数据，共设置4组处理： UU组：未施用生物刺激素（未预诱导）、无胁迫（对照植株） PU组：以泡叶藻（Ascophyllum nodosum）提取物进行预诱导，无胁迫 US组：未预诱导、干旱胁迫 PS组：经生物刺激素预诱导、干旱胁迫 本实验设置的干旱胁迫及恢复处理如下： 中度干旱：停止灌溉6天，土壤田间持水量约50%，采样时间为移栽后第6天（6 DAP） 重度干旱：停止灌溉11天，土壤田间持水量约25%，采样时间为移栽后第11天（11 DAP） 恢复处理：复水2天后采样，即移栽后第13天（13 DAP） 有关实验与处理的更多细节可参阅原文： Kanojia等（2024）《海藻生物刺激素提升番茄果实产量与耐旱性的生理与分子机制解析》，*Stress*期刊，DOI: 10.1016/j.stress.2024.100692