T-Consciousness fields alter germination, growth, and biochemical responses of wheat (Triticum aestivum cv. Bahar) under drought stress

The existence of consciousness or mind-like properties in plants remains a debated topic in plant biology. This study examined a hypothesis involving nonfrequency T-Consciousness Fields, proposing that information transmitted through these fields may influence plant responses. Using the Faradarmani Consciousness Field (T1) and the T-Consciousness Charge Field (T2), two experiments were conducted in a completely randomized design to assess their effects on wheat (Triticum aestivum cv. Bahar) under drought stress. The germination test was carried out in March, and the subsequent pot experiment was conducted in September 2025 in Gorgan and Guilan Provinces, Iran. In the first experiment, seeds were exposed to PEG-induced drought stress (0, −0.6, and −1.2 MPa) for 8 d, with or without T1 and T2, to evaluate germination and early growth. In the second experiment, seedlings grown in pots were subjected to three weeks of drought by withholding irrigation, with untreated plants serving as controls. Growth parameters, chlorophyll, carotenoid, total protein, and superoxide dismutase (SOD) activities were measured. The results obtained were processed statistically via one-way ANOVA. Severe drought reduced final and mean daily germination by about 40%, whereas T2 significantly improved both (p p

植物是否存在意识或类心智属性，仍是植物生物学领域颇具争议的议题。本研究针对非频率型T意识场（nonfrequency T-Consciousness Fields）相关假说展开验证，该假说提出：通过此类场域传递的信息或可影响植物的响应。本研究采用完全随机设计开展两组实验，借助法拉达马尼意识场（Faradarmani Consciousness Field，T1）与T意识电荷场（T-Consciousness Charge Field，T2），评估二者在干旱胁迫下对普通小麦（Triticum aestivum cv. Bahar）品种巴哈尔的作用效果。发芽实验于3月开展，后续盆栽实验于2025年9月在伊朗戈尔甘（Gorgan）与吉兰（Guilan）两省进行。第一组实验中，将种子置于聚乙二醇（polyethylene glycol, PEG）诱导的干旱胁迫环境（0、−0.6及−1.2 MPa）中处理8天，分别施加或不施加T1与T2，以评估种子发芽与早期生长情况。第二组实验中，将盆栽幼苗通过停止灌溉实施为期三周的干旱胁迫，以未处理植株作为对照组。本研究测定了生长参数、叶绿素、类胡萝卜素、总蛋白含量以及超氧化物歧化酶（superoxide dismutase, SOD）活性。所得实验结果通过单因素方差分析（one-way ANOVA）进行统计学处理。重度干旱使最终发芽率与日均发芽率均降低约40%，而T2可显著改善这两项指标（p p