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backend/storage/plants/stress.basil.md

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+Basil's growth, yield, and chemical composition are significantly influenced by environmental and nutritional stress.
+
+*   **Water Stress (Drought):** Inhibits overall plant growth and significantly reduces dry herb yield.
+*   **Drought Effects:** Leads to a decrease in total sugar and carotenoid concentrations.
+*   **Biomass:** Drought stress reduces dry herb yield, which can be attributed to a smaller leaf area index and reduced photosynthesis.
+*   **Photosynthesis:** Drought stress leads to a significant decrease in the net assimilation rate and stomatal conductance.
+*   **Essential Oils:** Water stress can have a positive or negative effect on essential oil content, depending on the cultivar and stress severity.
+*   **Heat Stress:** High temperatures inhibit plant growth and significantly decrease total chlorophyll levels.
+*   **Oxidative Stress:** Both high temperature and water stress can cause oxidative stress, indicated by increased malondialdehyde (MDA) levels.
+*   **Phenolic Compounds:** The concentration of total phenolic compounds increases in response to water and heat stress.
+*   **Flavonoids:** Flavonoid content increases under high-temperature stress but may decrease under water stress.
+*   **Proline and Glycine Betaine:** Under severe stress, basil plants accumulate proline and glycine betaine, which aid in cellular osmoregulation.
+*   **Salt Stress:** Basil is considered moderately tolerant to salinity.
+*   **Salinity Effects:** High salt levels can cause stunted growth, leaf yellowing, and reduced essential oil yield.
+*   **Genotype Variation:** The response to salt stress is genotype-dependent; some cultivars may see a reduction in fresh yield while others are unaffected.
+*   **Carotenoids under Salinity:** Salt stress can either increase or decrease lutein and β-carotene concentrations depending on the cultivar.
+*   **Volatile Organic Compounds (VOCs):** The composition of VOCs, which contribute to the aroma, is significantly affected by salinity, with compounds like linalool being negatively impacted.
+*   **Nutritional Stress:** Nitrogen content in the plant can be increased by salt stress in some cultivars.
+*   **Flooding Stress:** Reduces photosynthetic rates and stomatal conductance.
+*   **Combined Flooding and Drought:** This sequence of stress has a more significant negative impact on photosynthetic pigments and flavonoid content than single stress events.
+*   **Pigment Reduction:** Chlorophyll a, chlorophyll b, and β-carotene levels all decrease under combined flooding and drought stress.