BCKV, WB's Fertility Study Unveils AGMA Foliar's Triumph in Tomato Evolution! 🍅✨ Witness the astounding results: 🍅 15.5% more flowers 🍅 34.8% increased flower count 🍅 18% richer chlorophyll 🍅 75% amplified yield 🍅 22% higher TSS/BRIX, 🍅 28.3% elevated Lycopene 🍅 8.8% increased carotenoids 🍅 9.8% reduction in titrable acidity. AGMA Foliar sets a new standard in tomato cultivation, redefining growth metrics. 🌱📊 #AGMAFoliar #TomatoTriumph #AgriculturalInnovation
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Application #1 also called “Pre-Bloom” at one Quart per Acre (mature trees) for any crop which shows: • Bud emerging, feather flush, elongated flush, leaves out, pin and/or pea white head,… Please schedule and proceed to the application by next week Max. The next application will be at FULL BLOOM from 50% wide open flowers. Remember, the FERTILIZATION PROCESS is about to start and it will determine the entire genetic potential of your crop season for 2024-25, Take advantage of this solid bloom which is about to happen! Don’t wait. CYAN 365® is not a common product it is a serum concentrating natural potent plant hormones, polysaccharides and peptides. Why is it important to spray CYAN 365® at the moment of pre-bloom and full Bloom? Because it contains natural plant hormones such as: POLYAMINES (spermine, spermidine, putrescine) Polyamines play crucial roles in fruit flowering and development, contributing to various processes that are essential for successful reproduction and fruit production. Overall, polyamines are integral to the processes of fruit flowering and development, exerting beneficial effects on fruit yield, quality, stress tolerance, and reproductive success in plants. Understanding the roles of polyamines in these processes can inform strategies for enhancing fruit production and improving crop performance in arboriculture.
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Cashew stamens are the male reproductive organs of the cashew flower, which produce and release pollen, the male gametes essential for fertilization. In scientific terms, the cashew tree is known as Anacardium occidentale. Stamens are composed of two main parts: the filament and the anther. #Crops
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Plant hormones, also known as phytohormones, are chemical messengers that regulate various aspects of plant growth, development, and responses to environmental stimuli. There are five primary classes of plant hormones: 1. Auxins: Auxins are primarily responsible for cell elongation, apical dominance, and root initiation. They promote stem growth and inhibit lateral bud growth. Indole-3-acetic acid (IAA) is the most well-known auxin. Auxins also play a role in phototropism and gravitropism, directing plant growth in response to light and gravity, respectively. 2. Cytokinins: Cytokinins are hormones that promote cell division and delay senescence (aging) in plant tissues. They are involved in various processes such as promoting shoot growth, stimulating chloroplast development, and influencing root growth. Cytokinins work antagonistically with auxins in regulating plant growth and development. 3. Gibberellins: Gibberellins are hormones that regulate various aspects of plant growth, including stem elongation, seed germination, and flowering. They stimulate cell elongation and division, particularly in stems, and are involved in breaking seed dormancy and promoting flowering. 4. Ethylene: Ethylene is a gaseous hormone that regulates various physiological processes, including fruit ripening, senescence, and response to environmental stresses such as mechanical stress, flooding, and pathogen attack. It also promotes seed germination and root hair development. 5. Abscisic Acid (ABA): ABA plays a crucial role in stress responses and growth inhibition. It regulates stomatal closure to prevent water loss during drought conditions, promotes seed dormancy, and inhibits seed germination in unfavorable conditions. ABA also plays a role in responses to environmental stresses such as salinity and cold. These five classes of plant hormones work together in intricate ways to regulate plant growth, development, and responses to environmental cues, ensuring the plant's survival and adaptation in diverse conditions. Sanjaya Mariwala Gaura Verma #PlantGrowth #GardeningTips #GreenThumb #GrowYourOwn #UrbanGardening #BotanicalBeauty #AHNMI #NatureLovers #PlantLife #GardenInspiration #SustainableGardening #IndoorGarden #OutdoorOasis #GrowWhatYouEat #BloomingGarden #PlantParenthood
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Contrasting Endomycorrhizal and Ectomycorrhizal Fungi. Although both endomycorrhizal and ectomycorrhizal fungi form symbiotic associations with plants, they differ significantly in their ecological and physiological characteristics. Internal vs. External Colonization. Endomycorrhizal fungi colonize the root cells, forming arbuscules within the cortical tissue. In contrast, ectomycorrhizal fungi develop a sheath-like structure called the Hartig net around the root surface, extending their hyphae into the soil without penetrating the root cells. This fundamental difference in colonization strategies impacts their respective nutrient acquisition mechanisms and ecological interactions. Endomycorrhizal fungi deliver nutrients directly into the plant’s root system. Ectomycorrhizal fungi transport nutrients and put it in direct contact with the plant’s roots through the Hartig net for easier absorption. #fungi #agriculture https://lnkd.in/gKdz7QAQ
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Influence of Gamma Irradiation on Pollen Viability, Pollen Tube Growth, and Fruit Development in Tomato (Solanum lycopersicum L.) https://lnkd.in/gQC6CqPt
Corresponding author
jstage.jst.go.jp
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Calcium is an essential nutrient for soil fertility, but did you know that it also regulates the assimilation of other nutrients? With BeCrop testing by BiomeMakers, you can test calcium levels and the calcium transport function of the microbes in your soil. If you're struggling with low transport function or low tissue sample calcium, CustomBio has a Bacillus bacteria that ranks 100% on the BeCrop test for calcium transport. Out of 24 million microbes the BiomeMakers database, this bacteria is the perfect solution to make calcium available to your crop this year. Let's make your crop the best it can be! #SoilFertility #BeCropTesting #BiomeMakers #CalciumTransport #BeCrop #CustomBio #biologicals #agriculture #dnasoiltesting #soiltesting #microbiome #soilbiology #calcium #calciumdeficiency #AgTech #FarmingInnovation #SoilHealth #RegenerativeAgriculture #Sustainability #SoilHealth
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Check out this fantastic work by Martijn Jansen and many others on reproductive heat tolerance in tomato. All the way from a novel mechanism to enhanced performance in heatwave-affected production fields! In preprint for now, hopefully in full print soon😀 #RUplantanimalbiology #RUcropbiotechnology #RUplantstressresponses #plantscience #plantbiology #plantgenetics #plantstress #plantbiotechnology #cropbiotechnology
Flower bud cooling protects pollen development and improves fertility during heatwaves
biorxiv.org
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This new study shows that leaf herbivory affect the plant’s vegetative and reproductive structures differently according to their ontogeny. The production of young leaves and the maturation of flower buds into flowers is lower when leaf herbivory occurs. https://lnkd.in/g-ypvV-Z
Effects of foliar herbivory on the vegetative and reproductive traits of Malpighiaceae from Cerrado: when the ontogeny of leaves and flowers matters - Arthropod-Plant Interactions
link.springer.com
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Mango stamens are integral parts of the reproductive system of the mango tree (Mangifera indica), playing a crucial role in its reproduction and fruit production. Stamens are the male reproductive organs of flowering plants, consisting of a filament and an anther. In mango flowers, the stamens are typically numerous and surround the central pistil, which contains the female reproductive organs. #Crops
The Mango Stamens: Economic Importance, Uses, and By-Products
agric4profits.com
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Tomato reproductive parts The reproductive parts of a tomato plant include: 1. Flowers: - Male flowers (tassels): produce pollen - Female flowers (pistils): contain the ovary and produce eggs 2. Male Reproductive Organs: - Anthers: produce pollen - Filaments: support the anthers 3. Female Reproductive Organs: - Stigma: receives pollen - Style: connects the stigma to the ovary - Ovary: contains the ovules (eggs) - Ovules: contain the female gametes (eggs) 4. Fruit: - Tomato fruit develops from the ovary of the female flower - Contains seeds, which develop from the fertilized ovules Tomato plants are self-pollinating, meaning they can pollinate themselves without the help of external agents like bees or wind. However, they can also be cross-pollinated, which can increase genetic diversity. It's worth noting that there are also some variations in tomato plant reproduction, such as: - Perfect flowers: have both male and female reproductive organs - Imperfect flowers: have only one type of reproductive organ - Monoecious: have separate male and female flowers on the same plant - Dioecious: have separate male and female plants
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7moOne of the Best Biological as i have personally experienced the results in the field while working there !