Effects of Light and Nutrients on Leaf Size, CO<sub>2</sub> Exchange, and Anatomy in Wild Strawberry (<i>Fragaria virginiana</i>)

Jurik, Thomas W.; Chabot, Jean Fincher; Chabot, Brian F.

doi:10.1104/pp.70.4.1044

Cited by 77 publications

(60 citation statements)

References 9 publications

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“…In wild strawberry (F. virginiana), expanded leaf area was observed under high light intensity (Jurik et al, 1982). As the growing point of strawberry is covered by leaves, leaf position may affect the light interception of new leaves.…”

Section: Discussionmentioning

confidence: 99%

Analysis of a High-yielding Strawberry (Fragaria ^|^times;ananassa Duch.) Cultivar ^|^lsquo;Benihoppe^|^rsquo; with Focus on Dry Matter Production and Leaf Photosynthetic Rate

Mochizuki

Iwasaki

Funayama

et al. 2013

J. Japan. Soc. Hort. Sci.

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This study was conducted to clarify the ecophysiological traits of high-yielding 'Benihoppe' with focus on its dry matter production, plant growth analysis, and leaf photosynthetic rate in comparison with those of 'Toyonoka' and 'Sachinoka'. Total dry matter of 'Benihoppe' was higher than that of 'Toyonoka', while no difference was found between their harvest indices. In 'Benihoppe', the crop growth rate (CGR) and leaf area index (LAI) were higher than those of 'Toyonoka' and 'Sachinoka'. The large LAI of 'Benihoppe' was attributed to its ability to bear larger leaves than other cultivars, while 'Benihoppe' demonstrated a superior net assimilation rate (NAR) to that of 'Toyonoka'. NAR is affected by leaf photosynthetic activity; however, no difference was observed between the leaf photosynthetic rates of 'Benihoppe' and 'Toyonoka'. Petioles in 'Benihoppe' that supported large leaves were longer and upright, and NAR might be affected by their trait, which allow solar radiation to penetrate the plant canopy. Thus, the outstanding CGR in 'Benihoppe' may be a result of the large LAI and upright petioles which allow solar radiation to penetrate the plant canopy.

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Section: Discussionmentioning

confidence: 99%

Analysis of a High-yielding Strawberry (Fragaria ^|^times;ananassa Duch.) Cultivar ^|^lsquo;Benihoppe^|^rsquo; with Focus on Dry Matter Production and Leaf Photosynthetic Rate

Mochizuki

Iwasaki

Funayama

et al. 2013

J. Japan. Soc. Hort. Sci.

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“…Such xeromorphic plasticity in response to variations in the availability of light, water and nutrients is well established (e.g. Givnish, 1978;Jurik, Chabot & Chabot, 1982;Field & Mooney, 1983), though their synergistic interactions have rarely been explored. This increase in sclerophylly was associated with a decrease in water potential and RWC at turgor loss point and of osmotic potential at full turgor, and an increase in bulk elastic modulus and overall water-use efficiency, all characteristic of plants adapted to tolerate extreme water stress (Turner, 1986).…”

Section: Discussionmentioning

confidence: 99%

Xerophytic implications of increased sclerophylly: interactions with water and light in Hakea psilorrhyncha seedlings

Groom

Lamont

1997

New Phytologist

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SUMMARYHakea psilorrhyncha R. M. Barker seedlings were subjected to a two-way interaction experiment with two levels of water availability and two levels of light. Physiological drought was imposed by adding 6000 MW polyethylene glycol (PEG), at an osmotic potential of -0-S6MPa, in a continuous-fiow drip irrigation system. Unstressed plants (-PEG) were watered with distilled water (osmotic potential of -0-01 MPa). Seedlings were grown under natural light (120-500 /tmol m~^ s~^ sunlight at midday •\-L) or shaded (< 150 /imol m"^ s~^ sunlight at midday; -L. Plant morphology tissue water relations and carbon isotope composition ((^^^C) were measured after 12 wk growth. The smallest leaves had the highest mass per unit area (LMA, an index of sclerophylly) and were present in the +PEG + L treatment, whereas the largest, thickest leaves had the lowest density and were produced in the -PEG + L treatment. Plants in shade were smaller and less sclerophyllous. There was a linear decrease in osmotic potential at full turgor and turgor loss point, and an increase in elastic modulus and S^^C, as level of sclerophylly increased, with -PEG -L leaves at one extreme and +PEG + L at the other. We conclude that high levels of sclerophylly induced by low water availability and high light intensity are associated with substantial drought tolerance in H. psilorrhyncha.

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“…in general, when located in unshaded areas, under high light intensity, leaves show greater toughness and trichome density. moreover, plants under light stress can change nutrient contents in their leaves (mattson, 1980;Jurik et al, 1982), as well as activate secondary metabolite synthesis such as coumarins (berenbaum, 1991) and anthocyanins (skaltsa et al, 1994). anthocyanins are broadly found on angiosperm leaves and flowers, where they act in photoprotection (gould et al, 1995; lee & collins, 2001; lee & gould, 2002; steyn et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

Phenotypic plasticity in Passiflora suberosa L.(Passifloraceae): induction and reversion of two morphs by variation in light intensity

et al. 2006

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Leaf morphology may vary considerably even within a branch of Passiflora suberosa plants. Leaves are of a typical green type in shaded areas, but in open fields turn into violet, and apparently have greater thickness and trichome density. The proximate causes and the adaptive meaning, if any, for the existence of the violet morph are still unknown. By cultivating P. suberosa clones under two light regimes (total and partial exposure to sunlight), we consecutively induced (first year) and then reversed (second year) the appearance of the violet morph. We evaluated the corresponding changes in morpho-anatomic and chemical leaf characteristics. Plants that were grown under partial sunlight had a greater size and did not alter their green color, but those grown under total sunlight changed into violet, were smaller in size and their leaves were tougher, thicker, and had a greater number of trichomes. The violet morph had increased anthocyanins and phenolic derivatives. It also showed cellular hypertrophy, a greater number of cell layers in the mesophyll, and a lignified pericycle. Since these morphs are interchangeable by changing light conditions, we inferred that they are not determined by genotypic diversity, but are mainly a result of a physiological response to light stress, and thus part of P. suberosa phenotypic plasticity.

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Effects of Light and Nutrients on Leaf Size, CO₂ Exchange, and Anatomy in Wild Strawberry (Fragaria virginiana)

Cited by 77 publications

References 9 publications

Analysis of a High-yielding Strawberry (Fragaria ^|^times;ananassa Duch.) Cultivar ^|^lsquo;Benihoppe^|^rsquo; with Focus on Dry Matter Production and Leaf Photosynthetic Rate

Analysis of a High-yielding Strawberry (Fragaria ^|^times;ananassa Duch.) Cultivar ^|^lsquo;Benihoppe^|^rsquo; with Focus on Dry Matter Production and Leaf Photosynthetic Rate

Xerophytic implications of increased sclerophylly: interactions with water and light in Hakea psilorrhyncha seedlings

Phenotypic plasticity in Passiflora suberosa L.(Passifloraceae): induction and reversion of two morphs by variation in light intensity

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Effects of Light and Nutrients on Leaf Size, CO2 Exchange, and Anatomy in Wild Strawberry (Fragaria virginiana)

Cited by 77 publications

References 9 publications

Analysis of a High-yielding Strawberry (Fragaria ^|^times;ananassa Duch.) Cultivar ^|^lsquo;Benihoppe^|^rsquo; with Focus on Dry Matter Production and Leaf Photosynthetic Rate

Analysis of a High-yielding Strawberry (Fragaria ^|^times;ananassa Duch.) Cultivar ^|^lsquo;Benihoppe^|^rsquo; with Focus on Dry Matter Production and Leaf Photosynthetic Rate

Xerophytic implications of increased sclerophylly: interactions with water and light in Hakea psilorrhyncha seedlings

Phenotypic plasticity in Passiflora suberosa L.(Passifloraceae): induction and reversion of two morphs by variation in light intensity

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Effects of Light and Nutrients on Leaf Size, CO₂ Exchange, and Anatomy in Wild Strawberry (Fragaria virginiana)