Your search keyword '"GIOVANNELLI, ALESSIO"' showing total 9 results

1. Can sugar metabolism in the cambial region explain the water deficit tolerance in poplar?

Author

Traversari S, Francini A, Traversi ML, Emiliani G, Sorce C, Sebastiani L, and Giovannelli A

Subjects

Cell Cycle, Genotype, Populus cytology, Populus genetics, Droughts, Populus metabolism, Sugars metabolism, Water

Abstract

Drought dramatically affects wood production by adversely impacting cambial cells and their derivatives. Photosynthesis and assimilate transport are also affected by drought conditions. Two poplar genotypes, Populus deltoides 'Dvina' and Populus alba 'Marte', demonstrated contrasting growth performance and water-carbon balance strategies; a mechanistic understanding of the water deficit response was provided by these poplar species. 'Marte' was found to be more anisohydric than 'Dvina'. This characteristic was associated with the capacity to reallocate carbohydrates during water deficits. In contrast, 'Dvina' displayed more conservative water management; carbohydrates were preferably stored or used for cellulose production rather than to achieve an osmotic balance between the phloem and the xylem. Data confirmed that the more 'risk-taking' characteristic of 'Marte' allowed a rapid recovery following water deficit and was connected to a different carbohydrate metabolism.

Published

2018

2. How do drought and warming influence survival and wood traits of Picea mariana saplings?

Author

Balducci L, Deslauriers A, Giovannelli A, Beaulieu M, Delzon S, Rossi S, and Rathgeber CB

Subjects

Adaptation, Physiological, Carbohydrate Metabolism, Plant Stems metabolism, Starch metabolism, Water metabolism, Wood anatomy & histology, Climate Change, Droughts, Picea anatomy & histology, Picea growth & development, Wood physiology

Abstract

Warming and drought will occur with increased frequency and intensity at high latitudes in the future. How heat and water stress can influence tree mortality is incompletely understood. The aim of this study was to evaluate how carbon resources, stem hydraulics, and wood anatomy and density determine the ability of black spruce saplings to survive daytime or night-time warming (+ 6 °C in comparison with control) in combination with a drought period. Plant water relations, the dynamics of non-structural carbohydrates and starch, mortality rate, and wood anatomy and density of saplings were monitored. Warming, in conjunction with 25 d of water deficit, increased sapling mortality (10% and 20% in night-time and daytime warming, respectively) compared with the control conditions (0.8%). Drought substantially decreased gas exchange, and also pre-dawn and mid-day leaf water potential to values close to -3MPa which probably induced xylem embolism (xylem air entry point, P₁₂, being on average around -3MPa for this species). In addition, the recovery of gas exchange never reached the initial pre-stress levels, suggesting a possible loss of xylem hydraulic conductivity associated with cavitation. Consequently, mortality may be due to xylem hydraulic failure. Warmer temperatures limited the replenishment of starch reserves after their seasonal minimum. Lighter wood was formed during the drought period, reflecting a lower carbon allocation to cell wall formation, preventing the adaptation of the hydraulic system to drought. Saplings of black spruce experienced difficulty in adapting under climate change conditions, which might compromise their survival in the future., (© The Author 2014. Published by Oxford University Press on behalf of the Society for Experimental Biology.)

Published

2015

3. Impact of warming and drought on carbon balance related to wood formation in black spruce.

Author

Deslauriers A, Beaulieu M, Balducci L, Giovannelli A, Gagnon MJ, and Rossi S

Subjects

Cambium physiology, Carbohydrates analysis, Gases metabolism, Photosynthesis, Plant Leaves physiology, Quebec, Seasons, Solubility, Statistics, Nonparametric, Temperature, Water, Xylem cytology, Xylem physiology, Carbon metabolism, Droughts, Global Warming, Picea growth & development, Picea metabolism, Wood growth & development, Wood metabolism

Abstract

Background and Aims: Wood formation in trees represents a carbon sink that can be modified in the case of stress. The way carbon metabolism constrains growth during stress periods (high temperature and water deficit) is now under debate. In this study, the amounts of non-structural carbohydrates (NSCs) for xylogenesis in black spruce, Picea mariana, saplings were assessed under high temperature and drought in order to determine the role of sugar mobilization for osmotic purposes and its consequences for secondary growth., Methods: Four-year-old saplings of black spruce in a greenhouse were subjected to different thermal conditions with respect to the outside air temperature (T0) in 2010 (2 and 5 °C higher than T0) and 2011 (6 °C warmer than T0 during the day or night) with a dry period of about 1 month in June of each year. Wood formation together with starch, NSCs and leaf parameters (water potential and photosynthesis) were monitored from May to September., Key Results: With the exception of raffinose, the amounts of soluble sugars were not modified in the cambium even if gas exchange and photosynthesis were greatly reduced during drought. Raffinose increased more than pinitol under a pre-dawn water potential of less than -1 Mpa, presumably because this compound is better suited than polyol for replacing water and capturing free radicals, and its degradation into simple sugar is easier. Warming decreased the starch storage in the xylem as well the available hexose pool in the cambium and the xylem, probably because of an increase in respiration., Conclusions: Radial stem growth was reduced during drought due to the mobilization of NSCs for osmotic purposes and due to the lack of cell turgor. Thus plant water status during wood formation can influence the NSCs available for growth in the cambium and xylem., (© The Author 2014. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2014

4. Effects of temperature and water deficit on cambial activity and woody ring features in Picea mariana saplings.

Author

Balducci L, Deslauriers A, Giovannelli A, Rossi S, and Rathgeber CB

Subjects

Adaptation, Physiological, Air, Climate, Photosynthesis, Picea growth & development, Plant Leaves physiology, Seedlings growth & development, Seedlings physiology, Stress, Physiological, Trees growth & development, Trees physiology, Cambium growth & development, Droughts, Global Warming, Picea physiology, Temperature, Water, Wood growth & development

Abstract

Increase in temperature under the projected future climate change would affect tree growth, including the physiological mechanisms related to sapling responses, which has been examined recently. The study investigated the plant water relations, cambial activity and wood formation in black spruce saplings [Picea mariana (Mill.) B.S.P.] subjected to water deficit and warming. Four-year-old saplings growing in three greenhouses were submitted to different thermal conditions: T0, with a temperature equal to the external air temperature; and T + 2 and T + 5, with temperatures set at 2 and 5 K higher than T0, respectively. We also submitted saplings to two irrigation regimes and studied the effects of a water deficit of 32 days in May-June. We evaluated plant water relations, cambial activity, wood formation and anatomical characteristics from May to October 2010. Lower needle physiology rates were observed during water deficit, with 20-day suspension of irrigation, but after re-watering, non-irrigated saplings attained the same values as irrigated ones in all thermal conditions. Significant differences between irrigation regimes were detected in cambial activity at the end of the water deficit and after resumption of irrigation. Under warmer conditions, the recovery of non-irrigated saplings was slower than T0 and they needed from 2 to 4 weeks to completely restore cambial activity. No significant differences in wood anatomy were observed between irrigation regimes, but there was a sporadic effect on wood density under warming. During wood formation, the warmer conditions combined with water deficit increased sapling mortality by 5 and 12.2% for T + 2 and T + 5, respectively. The black spruce saplings that survived were more sensitive to water availability, and the restoration of cambial activity was slower at temperatures higher than T0. Our results suggest that black spruce showed a plastic response to intense water deficit under warming, but this would compromise their survival.

Published

2013

5. The admixture of Quercus sp. in Pinus sylvestris stands influences wood anatomical trait responses to climatic variability and drought events.

Author

Giberti, Giulia Silvia, von Arx, Georg, Giovannelli, Alessio, du Toit, Ben, Unterholzner, Lucrezia, Bielak, Kamil, Carrer, Marco, Uhl, Enno, Bravo, Felipe, Tonon, Giustino, and Wellstein, Camilla

Subjects

SCOTS pine, WOOD, DROUGHTS, OAK, WOOD density, FOREST microclimatology

Abstract

Introduction: Forests are threatened by increasingly severe and more frequent drought events worldwide. Mono-specific forests, developed as a consequence of widespread management practices established early last century, seem particularly susceptible to global warming and drought compared with mixed- species forests. Although, in several contexts, mixed-species forests display higher species diversity, higher productivity, and higher resilience, previous studies highlighted contrasting findings, with not only many positive but also neutral or negative effects on tree performance that could be related to tree species diversity. Processes underlying this relationship need to be investigated. Wood anatomical traits are informative proxies of tree functioning, and they can potentially provide novel long-term insights in this regard. However, wood anatomical traits are critically understudied in such a context. Here, we assess the role of tree admixture on Pinus sylvestris L. xylem traits such as mean hydraulic diameter, cell wall thickness, and anatomical wood density, and we test the variability of these traits in response to climatic parameters such as temperature, precipitation, and drought event frequency and intensity. Methods: Three monocultural plots of P. sylvestris and three mixed-stand plots of P. sylvestris and Quercus sp. were identified in Poland and Spain, representing Continental and Mediterranean climate types, respectively. In each plot, we analyzed xylem traits from three P. sylvestris trees, for a total of nine trees in monocultures and nine in mixed stands per study location. Results: The results highlighted that anatomical wood density was one of the most sensitive traits to detect tree responses to climatic conditions and drought under different climate and forest types. Inter-specific facilitation mechanisms were detected in the admixture between P. sylvestris and Quercus sp., especially during the early growing season and during stressful events such as spring droughts, although they had negligible effects in the late growing season. Discussion: Our findings suggest that the admixture between P. sylvestris and Quercus sp. increases the resilience of P. sylvestris to extreme droughts. In a global warming scenario, this admixture could represent a useful adaptive management option. [ABSTRACT FROM AUTHOR]

Published

2023

6. Morpho-Physiological Responses of Three Italian Olive Tree (Olea europaea L.) Cultivars to Drought Stress.

Author

Parri, Sara, Romi, Marco, Hoshika, Yasutomo, Giovannelli, Alessio, Dias, Maria Celeste, Piritore, Francesca Cristiana, Cai, Giampiero, and Cantini, Claudio

Subjects

OLIVE, DROUGHT management, WATER management, WATER shortages, DROUGHTS, CULTIVARS, WATER in agriculture

Abstract

Water scarcity in agriculture can limit crop production and trigger the need for more effective water resource management. As a result, it is critical to identify new crop genotypes that are more drought tolerant and perform better under low irrigation or even rain-fed conditions. The olive tree is a high-value crop that is well adapted to dry Mediterranean conditions. However, different genotypes may have developed different mechanisms of tolerance to water stress. To investigate such mechanisms, we examined three Italian olive cultivars ('Giarraffa', 'Leccino', and 'Maurino') grown in a greenhouse under drought stress. We found that single genotypes responded differently to the drought, though not all parameters revealed significant differences. The first major difference among the cultivars was in transpiration: the lower stomatal density and stomatal conductance of 'Giarraffa' allow this cultivar to use water more conservatively. In parallel with the reduction in stomatal and mesophyll conductance, the drought-stressed group of 'Giarraffa' maintained the electron transport rate and effective efficiency levels of photosystem II similar to those of the control until the fourth week of stress. The fluorescence parameters revealed the earlier closure of reaction photosynthetic centres in 'Leccino'. Finally, the higher rate of electrolyte leakage in 'Maurino' indicated a significant ions loss in this cultivar when it was subjected to the drought. Both water management under stress conditions and the effect of drought on photosynthesis make 'Giarraffa' interesting to researchers studying its use in breeding or water-saving programmes. [ABSTRACT FROM AUTHOR]

Published

2023

7. Bark stripping behaviour by a large-sized rodent, the crested porcupine, as an adaptation to climate change.

Author

Mori, Emiliano, Viviano, Andrea, Scarfò, Manuel, Preti, Federico, Pucci, Chiara, Ciuti, Francesca, Giovannelli, Alessio, Traversi, Maria Laura, Senserini, Davide, and Mazza, Giuseppe

Subjects

PORCUPINES, CLIMATE change, RODENTS, GLOBAL warming, ANIMAL species, DROUGHTS

Abstract

The ongoing climatic change is forcing animal species to cope with global warming and to use different resources to improve their survival. Several species have been favoured by global warming, particularly the alien ones adapted to thrive in tropical and subtropical areas. As to Italian mammals, the crested porcupine Hystrix cristata, a large rodent of tropical African origin, has increased its range in the last 50 years, conquering most of the Northern regions, where it was historically absent. The species usually dig to find its main food, i.e. underground storage plant organs (roots, bulbs, tubers, and rhizomes). Cold months in 2021–2022 have been characterized by a severe drought in Central Italy which prevented porcupines from digging for food search. In this note, we showed that porcupines may adapt to local drought by using a food resource which is commonly avoided, i.e. tree barks. In particular, in Central Italy, the crested porcupine mostly debarked black elders, which show soft barks with medical properties. [ABSTRACT FROM AUTHOR]

Published

2022

8. Xylem morphology determines the drought response of two Arundo donax ecotypes from contrasting habitats.

Author

Haworth, Matthew, Centritto, Mauro, Giovannelli, Alessio, Marino, Giovanni, Proietti, Noemi, Capitani, Donatella, De Carlo, Anna, and Loreto, Francesco

Subjects

XYLEM, PLANT morphology, GIANT reed, PLANT habitats, PLANT growth, PHOTOSYNTHESIS, DROUGHTS

Abstract

Arundo donax exhibits rapid growth and requires little nutrient input, making it an ideal perennial biomass crop species. However, this growth is accompanied by high rates of water use, potentially restricting the use of A. donax in rain-fed marginal lands. Here, we investigated the physiological and morphological responses to drought in two ecotypes of A. donax from contrasting habitats: one from an arid environment in Morocco, and the second from a warm humid sub-Mediterranean climate in central Italy. Prolonged drought resulted in identical reductions in leaf-level photosynthesis ( PN) and stomatal conductance ( Gs) in the two ecotypes. However, water deficit induced an increase in xylem vessel diameter in the Moroccan plants, improving the movement of water along the stem, but also likely reducing the resistance to embolism. In contrast, the Italian ecotype reduced xylem vessel area, thus increasing resistance to water transport and xylem embolism. The increased xylem vessel size and associated vulnerability to embolism in the Moroccan plants may have contributed to an increase in the loss of leaf numbers, but also to higher relative water content ( RWC) in the remaining leaves in comparison to the Italian ecotype, where a greater number of leaves persisted. Despite the Moroccan plants possessing stems with a lower basal area than their Italian counterparts, both ecotypes exhibited identical leaf to supporting stem area ratios under both control and water deficit conditions. This may account for the similarities observed in leaf area measures of PN and Gs in this and previous studies of different A. donax ecotypes. Selection of A. donax ecotypes on the basis of xylem responses to drought may facilitate the development of varieties suited to arid environments prone to severe drought and wetter habitats where prolonged droughts occur less frequently. [ABSTRACT FROM AUTHOR]

Published

2017

9. Evaluation of drought response of two poplar clones (Populus×canadensis Mönch ‘I-214’ and P. deltoides Marsh. ‘Dvina’) through high resolution analysis of stem growth.

Author

Giovannelli, Alessio, Deslauriers, Annie, Fragnelli, Giuseppe, Scaletti, Luciano, Castro, Gaetano, Rossi, Sergio, and Crivellaro, Alan

Subjects

*DROUGHTS, *FOREST irrigation, *RAINFALL, *SOIL moisture, *PLANT physiology

Abstract

Different irrigation effects on stem radius variation (ΔR) and maximum daily shrinkage (MDS) in Populus deltoides ‘Dvina’ and Populus×canadensis ‘I-214’ were studied to assess differences in drought tolerance between clones. One-year-old trees growing in concrete tanks were submitted to two irrigation regimes (natural rainfall and irrigation) from 24 June to 10 August, and ΔR was monitored by automatic point dendrometers. Independently of the irrigation regime, ‘Dvina’ showed a higher stem radial increment than ‘I-214’. In both clones, the first response to changed soil water content was a significant increase in MDS, whilst ΔR decreased about 20 d later when pre-dawn leaf water potential (Ψpd) dropped below –0.4 MPa. However, they displayed different strategies to overcome drought. ‘Dvina’ maintained a positive ΔR for longer than ‘I-214’, which had lower leaf Ψpd and greater leaf abscission at the end of the drought period. After irrigation resumed, ‘Dvina’ showed a higher capacity to restore stem growth. ‘I-214’ was probably unable to recover secondary growth because of higher leaf abscission during drought stress and the production of newly expanded leaves during recovery. It is concluded that the larger radial growth of ‘Dvina’ derived from a better water use (carbon uptake versus water loss) than ‘I-214’ under limited water availability. [ABSTRACT FROM PUBLISHER]

Published

2007