6 results on '"Natale, Sara"'
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2. Net O2 exchange rates under dark and light conditions across different stem compartments.
- Author
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Natale, Sara, Peralta Ogorek, Lucas Léon, Caracciolo, Ludovico, Morosinotto, Tomas, van Amerongen, Herbert, Casolo, Valentino, Pedersen, Ole, and Nardini, Andrea
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CHLOROPLASTS , *FOREIGN exchange rates , *WOOD chemistry , *WOOD , *PHOTOSYSTEMS , *ELECTRON transport , *MICROSENSORS , *WOODY plants - Abstract
Summary: Woody plants display some photosynthetic activity in stems, but the biological role of stem photosynthesis and the specific contributions of bark and wood to carbon uptake and oxygen evolution remain poorly understood.We aimed to elucidate the functional characteristics of chloroplasts in stems of different ages in Fraxinus ornus. Our investigation employed diverse experimental approaches, including microsensor technology to assess oxygen production rates in whole stem, bark, and wood separately. Additionally, we utilized fluorescence lifetime imaging microscopy (FLIM) to characterize the relative abundance of photosystems I and II (PSI : PSII chlorophyll ratio) in bark and wood.Our findings revealed light‐induced increases in O2 production in whole stem, bark, and wood. We present the radial profile of O2 production in F. ornus stems, demonstrating the capability of stem chloroplasts to perform light‐dependent electron transport. Younger stems exhibited higher light‐induced O2 production and dark respiration rates than older ones.While bark emerged as the primary contributor to net O2 production under light conditions, our data underscored that wood chloroplasts are also photosynthetically active. The FLIM analysis unveiled a lower PSI abundance in wood than in bark, suggesting stem chloroplasts are not only active but also acclimate to the spectral composition of light reaching inner compartments. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
3. Structure and function of bark and wood chloroplasts in a drought-tolerant tree (Fraxinus ornus L.).
- Author
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Natale, Sara, Rocca, Nicoletta La, Battistuzzi, Mariano, Morosinotto, Tomas, Nardini, Andrea, and Alboresi, Alessandro
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CHLOROPLASTS , *WOOD , *BARK , *ASH (Tree) , *PHOTOSYSTEMS , *ELECTRON transport , *CONCENTRATION gradient - Abstract
Leaves are the most important photosynthetic organs in most woody plants, but chloroplasts are also found in organs optimized for other functions. However, the actual photosynthetic efficiency of these chloroplasts is still unclear. We analyzed bark and wood chloroplasts of Fraxinus ornus L. saplings. Optical and spectroscopic methods were applied to stem samples and compared with leaves. A sharp light gradient was detected along the stem radial direction, with blue light mainly absorbed by the outer bark, and far-red-enriched light reaching the underlying xylem and pith. Chlorophylls were evident in the xylem rays and the pith and showed an increasing concentration gradient toward the bark. The stem photosynthetic apparatus showed features typical of acclimation to a low-light environment, such as larger grana stacks, lower chlorophyll a/b and photosystem I/II ratios compared with leaves. Despite likely receiving very few photons, wood chloroplasts were photosynthetically active and fully capable of generating a light-dependent electron transport. Our data provide a comprehensive scenario of the functional features of bark and wood chloroplasts in a woody species and suggest that stem photosynthesis is coherently optimized to the prevailing micro-environmental conditions at the bark and wood level. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
4. Stem photosynthesis contributes to non-structural carbohydrate pool and modulates xylem vulnerability to embolism in Fraxinus ornus L.
- Author
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Natale, Sara, Tomasella, Martina, Gargiulo, Sara, Petruzzellis, Francesco, Tromba, Giuliana, Boccato, Enrico, Casolo, Valentino, and Nardini, Andrea
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XYLEM , *EMBOLISMS , *PHOTOSYNTHESIS , *ASH (Tree) , *WOOD chemistry , *ALUMINUM foil , *DROUGHT tolerance - Abstract
Stem photosynthesis can significantly contribute to the carbon budget of woody plants, providing an extra carbon gain that might be crucial under drought stress causing leaf photosynthesis impairment and/or a reduced phloem transport. Stems of Fraxinus ornus L. saplings were covered with aluminum foil to test the impact of inhibition of stem photosynthesis on plant vulnerability to drought. Plants were water-stressed to target xylem water potential of −3.5 MPa and were then re-irrigated to field capacity to quantify their recovery capacity. Vulnerability to xylem embolism was assessed in light-exposed and stem-shaded saplings with both the hydraulic method and in vivo with X-ray phase contrast micro-computed tomography. We also measured non-structural carbohydrate (NSC) concentration and osmotic potential in bark and wood, separately. Stem shading increased xylem vulnerability to embolism formation under drought but did not influence the recovery phase. This difference was coupled with modification of the NSC pool and impaired osmoregulation, in particular in the wood of stem-shaded saplings compared to control ones. Our results indicate stem photosynthesis as an important source of local NSCs, directly or indirectly involved in osmoregulation processes, which could be crucial to enhance the hydraulic resistance to embolism formation and to endure drought. • Stem shading increased xylem vulnerability to embolism formation under drought. • Stem photosynthesis in Fraxinus ornus influenced local non-structural carbohydrate pool. • Stem photosynthesis might enhance the hydraulic resistance to embolism formation under drought. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
5. No Evidence for Light-Induced Embolism Repair in Cut Stems of Drought-Resistant Mediterranean Species under Soaking.
- Author
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Tomasella, Martina, Natale, Sara, Petruzzellis, Francesco, Di Bert, Sara, D'Amico, Lorenzo, Tromba, Giuliana, and Nardini, Andrea
- Subjects
EMBOLISMS ,DROUGHT management ,WATER immersion ,HYDRAULIC conductivity ,X-ray imaging ,OLIVE ,PLANT-water relationships - Abstract
(1) Recent studies suggested that stem photosynthesis could favor bark water uptake and embolism recovery when stem segments are soaked in water under light conditions, but evidence for this phenomenon in drought-resistant Mediterranean species with photosynthetic stems is missing. (2) Embolism recovery upon immersion in water for 2 h–4 h under light was assessed (i) via a classical hydraulic method in leafless Fraxinus ornus and Olea europaea branch segments stressed to xylem water potentials (Ψ
xyl ) inducing ca. 50% loss of hydraulic conductivity (PLC) and (ii) via X-ray micro-CT imaging of the stem segments of drought-stressed potted F. ornus saplings. Hydraulic recovery was also assessed in vivo in intact drought-stressed F. ornus saplings upon soil re-irrigation. (3) Intact F. ornus plants recovered hydraulic function through root water uptake. Conversely, the soaked stem segments of both species did not refill embolized conduits, although Ψxyl recovered to pre-stress levels (between −0.5 MPa and −0.2 MPa). (4) We hypothesize that xylem embolism recovery through bark water uptake, even in light conditions, may not be a common phenomenon in woody plants and/or that wounds caused by cutting short stem segments might inhibit the refilling process upon soaking. [ABSTRACT FROM AUTHOR]- Published
- 2022
- Full Text
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6. No Evidence for Light-Induced Embolism Repair in Cut Stems of Drought-Resistant Mediterranean Species under Soaking
- Author
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Martina Tomasella, Sara Natale, Francesco Petruzzellis, Sara Di Bert, Lorenzo D’Amico, Giuliana Tromba, Andrea Nardini, Tomasella, Martina, Natale, Sara, Petruzzellis, Francesco, Di Bert, Sara, D'Amico, Lorenzo, Tromba, Giuliana, and Nardini, Andrea
- Subjects
soaking ,Ecology ,Botany ,food and beverages ,Plant Science ,embolism ,QK1-989 ,bark water uptake ,stem photosynthesis ,hydraulic recovery ,X-ray micro-CT ,Ecology, Evolution, Behavior and Systematics - Abstract
(1) Recent studies suggested that stem photosynthesis could favor bark water uptake and embolism recovery when stem segments are soaked in water under light conditions, but evidence for this phenomenon in drought-resistant Mediterranean species with photosynthetic stems is missing. (2) Embolism recovery upon immersion in water for 2 h–4 h under light was assessed (i) via a classical hydraulic method in leafless Fraxinus ornus and Olea europaea branch segments stressed to xylem water potentials (Yxyl) inducing ca. 50% loss of hydraulic conductivity (PLC) and (ii) via X-ray micro-CT imaging of the stem segments of drought-stressed potted F. ornus saplings. Hydraulic recovery was also assessed in vivo in intact drought-stressed F. ornus saplings upon soil re-irrigation. (3) Intact F. ornus plants recovered hydraulic function through root water uptake. Conversely, the soaked stem segments of both species did not refill embolized conduits, although Yxyl recovered to pre-stress levels (between −0.5 MPa and −0.2 MPa). (4) We hypothesize that xylem embolism recovery through bark water uptake, even in light conditions, may not be a common phenomenon in woody plants and/or that wounds caused by cutting short stem segments might inhibit the refilling process upon soaking.
- Published
- 2021
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