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https://en.wikipedia.org/wiki/Nectar
น้ำต้อย (อังกฤษ: nectar) เป็นของเหลวที่มีน้ำตาลสูงผลิตโดยพืชและต่อมชื่อว่า ต่อมน้ำต้อย (อังกฤษ: nectaries) ซึ่งอาจอยู่ภายในเป็นการหลอกล่อสัตว์ผสมเกสร หรือภายนอกนอกไม้ (อังกฤษ: extrafloral nectaries) เป็นแหล่งสารอาหารของสัตว์ที่มีภาวะพึ่งพากัน โดยสัตว์ก็จะช่วยป้องกันพืชจากสัตว์กินพืชชนิดอื่น สัตว์ที่กินน้ำต้อยขณะที่ช่วยผสมเกสร ได้แก่ ยุง แมลงวันดอกไม้ ต่อ ผึ้ง ผีเสื้อ ผีเสื้อกลางคืน ฮัมมิงเบิร์ด และค้างคาว Nectar plays an important role in the foraging economics and overall evolution of nectar-eating species; for example, nectar and its properties are responsible for the differential evolution of the African honey bee, A. m. scutellata and the western honey bee.
Nectar is an ecologically important item, the sugar source for honey. It is also useful in agriculture and horticulture because the adult stages of some predatory insects feed on nectar. For example, the social wasp species Apoica flavissima relies on nectar as a primary food source. In turn, these wasps then hunt agricultural pest insects as food for their young. For example, thread-waisted wasps (genus Ammophila) are known for hunting caterpillars that are destructive to crops. Caterpillars however, do eventually become butterflies and moths, which are very important pollinators. [ต้องการอ้างอิง]
Nectar secretion increases as the flower is visited by pollinators. After pollination, the nectar is frequently reabsorbed into the plant.[1]
Nectar is derived from Greek nektar, the favored drink of the gods. The current meaning, "sweet liquid in flowers," is first recorded in AD 1600.[2]
A nectary is floral tissue found in different locations in the flower. The different types of floral nectaries include septal nectaries found on the sepal, petal nectaries, staminal nectaries found on the stamen, and gynoecial nectaries found on the ovary tissue. The nectaries also may vary in color, number, and symmetry.[3] Nectaries can also be categorized as structural or non-structural. Structural nectaries refer to specific areas of tissue that exude nectar, such as the types of floral nectaries previously listed. Non-structural nectaries secrete nectar infrequently from non-differentiated tissues.[4] The different types of floral nectaries coevolved depending on the pollinator that feeds on the plant's nectar. Nectar is secreted from epidermal cells of the nectaries by means of trichomes or modified stomata. The nectar comes from phloem with additional sugars that are secreted from the cells through vesicles packaged by the endoplasmic reticulum.[5] Flowers that have longer nectaries sometimes have a vascular strand in the nectary to assist in transport over a longer distance.[6].
Floral nectaries are used by plants to attract pollinators such as insects, hummingbirds, and other vertebrates. The pollinators feed on the nectar and depending on the location of the nectary the pollinator assists in fertilization and outcrossing of the plant as they brush against the reproductive organs, the stamen and pistil, of the plant and pick up or deposit pollen.[7] Nectar from floral nectaries is sometimes used as a reward to insects, such as ants, that protect the plant from predators. Many floral families have evolved a nectar spur. These spurs are projections of various lengths formed from different tissues, such as the petals or sepals. They allow for pollinators to land on the elongated tissue and more easily reach the nectaries and obtain the nectar reward.[8] Different characteristics of the spur, such as its length or position in the flower, may determine the type of pollinator that visits the flower.[9]
Defense from herbivory is often one of the roles of extrafloral nectaries. Floral nectaries can also be involved in defense. In addition to the sugars found in nectar, certain proteins may also be found in nectar secreted by floral nectaries. In tobacco plants, these proteins have antimicrobial and antifungal properties and can be secreted to defend the gynoecium from certain pathogens.[10]
Floral nectaries have evolved and diverged into the different types of nectaries due to the various pollinators that visit the flowers. In Melastomataceae, different types of floral nectaries have evolved and been lost many times. Flowers that ancestrally produced nectar and had nectaries may have lost their ability to produce nectar due to a lack of nectar consumption by pollinators, such as certain species of bees. Instead they focused on energy allocation to pollen production. Species of angiosperms that have nectaries use the nectar to attract pollinators that consume the nectar, such as birds and butterflies.[11] In Bromeliaceae, septal nectaries are common in species that are insect or bird pollinated. In species that are wind pollinated, nectaries are often absent because there is no pollinator to provide a reward for.[12] In flowers that are generally pollinated by long-tongued organism such as certain flies, moths, butterflies, and birds, nectaries in the ovaries are common because they are able to reach the nectar reward when pollinating. Septal and petal nectaries are often more common in species that are pollinated by short-tongued insects that cannot reach so far into the flower.[13]
Extrafloral nectaries (also known as extranuptial nectaries) are nectar-secreting plant glands that develop outside of flowers and are not involved in pollination.[14] They are highly diverse in form, location, size, and mechanism. They have been described in virtually all above-ground plant parts—including leaves (in which case they are known as foliar nectaries), petioles, stipules, cotyledons, fruits, and stems, among others. They range from single-celled trichomes to complex cup-like structures that may or may not be vascularized.[15]
In contrast to floral nectaries, nectar produced outside the flower generally have a defensive function. The nectar attracts predatory insects which will eat both the nectar and any plant-eating insects around, thus functioning as 'bodyguards'.[16] Foraging predatory insects show a preference for plants with extrafloral nectaries, particularly some species of ants and wasps, which have been observed to directly defend the plants.[14] Among passion flowers, for example, extrafloral nectaries prevent herbivores by attracting ants and deterring two species of butterflies from laying eggs.[17] In many carnivorous plants, extrafloral nectaries are also used to attract insect prey.[18]
Darwin understood that extrafloral nectar "though small in quantity, is greedily sought by insects" but believe the "their visits do not in any way benefit the plant".[19] Instead, he believed that extrafloral nectaries were excretory in nature (hydathodes). Their defensive functions were first recognized by the Italian botanist Federico Delpino in his important monograph Funzione mirmecofila nel regno vegetale (1886). Delpino's study was inspired by a disagreement with Charles Darwin, with whom he corresponded regularly.[19]
Extrafloral nectaries have been reported in over 3941 species of vascular plants belonging to 745 genera and 108 families, 99.7% of which belong to flowering plants (angiosperms), comprising 1.0 to 1.8% of all known species. They are most common among eudicots, occurring in 3642 species (of 654 genera and 89 families), particularly among rosids which comprise more than half of the known occurrences. The families showing the most recorded occurrences of extrafloral nectaries are Fabaceae, with 1069 species, Passifloraceae, with 438 species, and Malvaceae, with 301 species. The genera with the most recorded occurrences are Passiflora (322 species, Passifloraceae), Inga (294 species, Fabaceae), and Acacia (204 species, Fabaceae).[15] Other genera with extrafloral nectaries include Salix (Salicaceae), Prunus (Rosaceae) and Gossypium (Malvaceae).[17]
Foliar nectaries have also been observed in 39 species of ferns belonging to seven genera and four families of Cyatheales and Polypodiales.[15] They are absent, however, in bryophytes, gymnosperms, early angiosperms, magnoliids, and members of Apiales among the eudicots.[15] Phylogenetic studies and the wide distribution of extrafloral nectaries among vascular plants point to multiple independent evolutionary origins of extrafloral nectaries in at least 457 independent lineages.[15]
The main ingredients in nectar are natural sugars in varying proportions of sucrose, glucose, and fructose.[20] In additional, nectars have a variety of other chemicals.[21] For example, the Nicotiana attenuata, a tobacco plant native to the US state of Utah, uses several volatile aromas to attract pollinating birds and moths. The strongest such aroma is benzylacetone, but the plant also adds bitter nicotine, which is less aromatic, so may not be detected by the bird until after taking a drink. Researchers speculate the purpose of this addition is to discourage the forager after only a sip, motivating it to visit other plants, therefore maximizing the pollination efficiency gained by the plant for a minimum nectar output.[21][22] Neurotoxins such as aesculin are present in some nectars such as that of the California buckeye.[23] Nectar contains water, carbohydrates, amino acids, ions and numerous other compounds.[1][21]
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