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The extrafloral nectaries of cowpea (Vigna unguiculata (L.) Walp): I. Morphology, anatomy and fine structure (1985)

Kuo, J. ; Pate, J. S.

Springer

Planta 166 (1985), S. 15-27

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ISSN: 1432-2048

Keywords: Nectary ; extrafloral ; Vigna (nectaries)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The cowpea bears two distinctive types of extrafloral nectaries. One, on the stipels of trifoliolate leaves, consists of a loosely demarcated abaxial area (1–2 mm diameter) of widely-spaced trichomes (papillae) borne on a stomata-free epidermis, and lacking a specific vascular supply. Each trichome has up to eight apical (head) cells, two to four intermediate cells, and a single large stalk cell. The secretory faces of the apical cells bear wall ingrowths and an easily detached cuticle. The wall separating the stalk cell and the underlying epidermal cell(s) has a mean plamodesmatal frequency of 25/μm2. The second type of nectary consists of a large elliptical mound of tissue (short and long axes about 2 mm and 4 mm) formed between a pair of flowers on an inflorescence stalk. It comprises four to eight cone-shaped subnits of secretory tissue, each with a circular secretory orifice and an individual supply of phloem, but not of xylem. Cells of the secretory tissue of the nectary subunits separate as they mature, and nectar flows to the orifice through the resulting intercellular spaces. Intact secretory cells and cellular debris are extruded into the nectar. Some of the sieve elements terminating in the inner secretory tissue exhibit open sieve pores. Each mature secretory cell contains many small (2 μm diameter) spherical protein bodies and one to three large (up to 2–3 μm diameter 15 μm long), paracrystalline bodies. These inclusions are absent or not fully developed in inner, less mature regions of the secretory tissue. Mechanisms of secretion are proposed for the two classes of nectary, including estimates of flux of sugar into the trichomes of the stipel nectary.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00397381

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The extrafloral nectaries of cowpea (Vigna unguiculata (L.) Walp.) II. Nectar composition, origin of nectar solutes, and nectary functioning (1985)

Pate, J. S. ; Peoples, M. B. ; Storer, P. J. ; [et al.]

Springer

Planta 166 (1985), S. 28-38

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ISSN: 1432-2048

Keywords: Nectary, extrafloral ; Vigna (nectaries)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Nectar was collected from the extrafloral nectaries of leaf stipels and inflorescence stalks, and phloem sap from cryopunctured fruits of cowpea plants. Daily sugar losses as nectar were equivalent to only 0.1–2% of the plant's current net photosynthate, and were maximal in the fourth week after anthesis. Sucrose:glucose:fructose weight ratios of nectar varied from 1.5:1:1 to 0.5:1:1, whereas over 95% of phloem-sap sugar was sucrose. [14C]Sucrose fed to leaves was translocated as such to nectaries, where it was partly inverted to [14C]glucose and [14C]fructose prior to or during nectar secretion. Invertase (EC 3.2.1.26) activity was demonstrated for inflorescence-stalk nectar but not stipel nectar. The nectar invertase was largely associated with secretory cells that are extruded into the nectar during nectary functioning, and was active only after osmotic disruption of these cells upon dilution of the nectar. The nectar invertase functioned optimally (phloem-sap sucrose as substrate) at pH 5.5, with a starting sucrose concentration of 15% (w/v). Stipel nectar was much lower in amino compounds relative to sugars (0.08–0.17 mg g-1 total sugar) than inflorescence nectar (22–30 mg g-1) or phloem sap (81–162 mg g-1). The two classes of nectar and phloem sap also differed noticeably in their complements of organic acids. Xylem feeding to leaves of a range of 14C-labelled nitrogenous solutes resulted in these substrates and their metabolic products appearing in fruit-phloem sap and adjacent inflorescence-stalk nectar. 14C-labelled asparagine, valine and histidine transferred freely into phloem and appeared still largely as such in nectar. 14C-labelled glycine, serine, arginine and aspartic acid showed limited direct access to phloem and nectar, although labelled metabolic products were transferred and secreted. The ureide allantoin was present in phloem, but absent from both types of nectar. Models of nectary functioning are proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00397382

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Internodes of grain legumes — New location for xylem parenchyma transfer cells (1980)

Kuo, J. ; Pate, J. S. ; Rainbird, R. M. ; [et al.]

Springer

Protoplasma 104 (1980), S. 181-185

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ISSN: 1615-6102

Keywords: Grain legumes ; Stem internodes ; Transfer cells

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Xylem parenchyma transfer cells were observed in the primary and secondary vascular tissue of stem internodes of 21 in 28 species of grain legumes. Their structural features were similar to those of other transfer cells. The relationships of these cells to transfer cells at nodes were investigated. Non-nodulated seedlings ofPhaseolus vulgaris L. formed internode transfer cells if provided mineral nutrients through their roots, but not if grown in distilled water or fed nutrients entirely through their leaves. Wall ingrowths formed in parenchyma of primary xylem ofPhaseolus just before full extension of an internode. The significance of this new location for transfer cells was discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01279381

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