Seasonal and daily changes in carbon acquisition of kiwifruit leaves with and without axillary fruit

Greer, Dennis H.

doi:10.1080/01140671.1999.9514076

New Zealand Journal of Crop and Horticultural Science

1999

DOI: 10.1080/01140671.1999.9514076

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Seasonal and daily changes in carbon acquisition of kiwifruit leaves with and without axillary fruit

Dennis H. Greer¹

Abstract: Potted kiwifruit (Actinidia deliciosa (A. Chev.) C.F. Liang et A.R. Ferguson) plants were transferred to a controlled environment at monthly intervals throughout the growing season (OctoberMay). Daily time-courses of net photosynthesis and respiration were measured on vegetative and fruitsubtending leaves that emerged in October, November, December, and February. Net carbon acquisition of each leaf was determined from daily and seasonal changes in gas exchange. Maximal rates of photosynthesis were coincident w… Show more

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Cited by 6 publications

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“…Jiang et al (2006) stated that the rate of photosynthesis gradually increases during development of the leaf and reaches its maximum in fully developed leaves. Greer (1999) demonstrated maximum rates of photosynthesis coincided with, or shortly followed, full leaf expansion, and photosynthetic development was dependent on the environmental history of the leaves. Young expanding leaves were characterized by low efficiency of photochemistry and photosynthesis, low capacity for both electron transport through photosystem II, low CO 2 fixation, high respiration, and a high capacity for non-radiative thermal dissipation (Greer and Halligan 2001).…”

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Effect of ontogeny, heterophylly and leaf position on the gas exchange of the hop plant

2014

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This paper evaluates the influence of ontogeny and the position of bine and offshoot leaves on the rate of photosynthesis (P n ), transpiration (E) and stomatal conductance (g s ) in hop plants. In the ontogeny influencing P n , E and g s among hops. The highest P n was measured in phase 81-89 BBCH and E and g s in phase 61-69 BBCH. The P n increased over the course of ontogeny from the 1 st to 3 rd level of the hop plants. From the 61 BBCH phase, the leaves of the first and second level achieved a photosynthetic maturity and P n value no longer increased. The third-level leaves achieved photosynthetic maturity from the 81 BBCH phase. Higher E was measured in the upper parts of the hop plant. P n and E were higher in the bine leaves in the third level of the hop plant over the entire course of the vegetation period. In the first and second level of the hop plant, higher values of P n were measured in the offshoot leaves. Differences in g s were not noteworthy among the leaf types. Results show that a significant factor affecting the differences in P n and E in hops is the age of the leaves.

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Effect of ontogeny, heterophylly and leaf position on the gas exchange of the hop plant

2014

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Effects of leader pruning on vine architecture, productivity and fruit quality in kiwifruit (Actinidia deliciosa cv. Hayward)

Miller

Broom

Thorp

et al. 2001

Scientia Horticulturae

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From controlled environments to field simulations: leaf area dynamics and photosynthesis of kiwifruit vines (Actinidia deliciosa)

Greer¹,

Seleznyova²,

Green³

2004

Functional Plant Biol.

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Canopy leaf area development and daily rates of carbon acquisition of kiwifruit [Actinidia deliciosa (A.�Chev.) C.F. Liang et A.R. Ferguson] vines growing in orchard conditions were modelled from mathematically-based physiological descriptions of leaf area expansion and photosynthesis of individual leaves Model drivers were temperatures and photon flux densities (PFD) measured in the orchard at 30-min intervals over the growing season. A modelling framework of shoot leaf area expansion, developed from controlled environment studies, was extended to whole vines by including canopy architectural components, such as shoot numbers, percentage budbreak and proportions of shoots in different length classes. Daily photosynthesis was modelled from rectangular hyperbolic functions determined for both sun and shade leaves and simulated from calculated light interception. Canopy leaf area, photosynthesis and PFDs within the canopy, obtained from measurements from vines grown in the orchard, were used to test the model. Close agreement occurred between the simulated and measured canopy leaf area development, and also between simulated and measured rates of photosynthesis. Total carbon acquisition over the growing season, estimated at 11 kg vine–1, compared closely with measured increments in vine biomass over the growing season. Results thus confirm the physiologically based model to be readily scalable to whole vines growing in orchard conditions.

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Seasonal and daily changes in carbon acquisition of kiwifruit leaves with and without axillary fruit

Cited by 6 publications

References 23 publications

Effect of ontogeny, heterophylly and leaf position on the gas exchange of the hop plant

Effect of ontogeny, heterophylly and leaf position on the gas exchange of the hop plant

Effects of leader pruning on vine architecture, productivity and fruit quality in kiwifruit (Actinidia deliciosa cv. Hayward)

From controlled environments to field simulations: leaf area dynamics and photosynthesis of kiwifruit vines (Actinidia deliciosa)

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