Significance of Calcium oxalate crystal
Calcium oxalate crystals are specific crystalline structures found in various plant tissues, notably associated with a plant's defense mechanisms and identification. These crystals can appear as druses and rosettes in mesophyll cells, contributing to the plant's morphological characteristics and playing roles in waste storage and protection against herbivory. Additionally, they are significant in identifying specific plant species and may serve various biological functions, including aiding in plant metabolism and potentially influencing medicinal properties.
Synonyms: Calcium oxalate stone
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The concept of Calcium oxalate crystal in scientific sources
Calcium oxalate crystals are prevalent in leaf mesophyll, existing as druses and rosettes. These plant crystals play a significant role in tissue structure, aiding in plant identification and contributing to overall properties.
From: Ancient Science of Life
(1) Mineral deposits found within the cells of Nattu Atividayam, which may play a role in the plant's structure and defense.[1] (2) Crystals found in some plants that can be indicative of specific characteristics or disorders.[2] (3) Crystalline compounds often found in plants, which may serve various biological functions.[3] (4) Mineral deposits that may influence the medicinal properties and efficacy of wild Soorana.[4] (5) Crystalline structures often found in plant cells, used here to differentiate between species based on their presence or absence.[5]
From: World Journal of Pharmaceutical Research
(1) Inorganic compounds found in the root's parenchyma cells, noted during the microscopical studies.[6] (2) Crystalline structures found in plants that can help identify specific plant tissues and their characteristics in pharmacognostic studies.[7] (3) A common type of crystal found in many plants, including S. mukorossi, indicative of certain physiological processes.[8] (4) Naturally occurring crystals in plants, often associated with a plant's defense mechanisms.[9] (5) Solid formations made of calcium oxalate that can lead to kidney stones; they are the primary focus of the study regarding prevention and inhibition.[10]
From: AYU (Journal of Research in Ayurveda)
(1) Crystalline structures found in various plant tissues, useful for botanical identification during powder microscopy.[11] (2) Crystals found in the tissues of both Bacopa monnieri and Bacopa floribunda, significant in their identification.[12] (3) Crystals found in plant tissues that can be involved in storage or defense mechanisms.[13]
From: International Ayurvedic Medical Journal
(1) Inorganic compounds found in the stem bark that are indicative of certain biochemical processes within the plant.[14] (2) Mineral deposits found in plant tissues that can aid in the identification and quality assessment of the species.[15]
From: Journal of Ayurveda and Integrative Medicine
(1) Specific types of crystals identified in A. coynei, which can serve as markers for distinguishing its structural characteristics.[16] (2) Crystals formed predominantly in urinary stones, noted for increasing severity in kidney deposition.[17]
From: Journal of Ayurveda and Holistic Medicine
(1) Small crystalline compounds found within the plant tissues, important for identifying certain characteristics of Mundi.[18]
From: The Malaysian Journal of Medical Sciences
(1) Mineral crystals that were the primary subject of the study, specifically their size inhibition by Plantago major extract.[19]
From: Ayushdhara journal
(1) Crystalline structures found in some plant tissues, potentially involved in plant defense mechanisms.[20]