Photoinhibition and recovery in tropical plant species: response to disturbance

Lovelock, Catherine E.; Osmond, C. B.; Jebb, Matthew

doi:10.1007/bf00317318

Cited by 141 publications

(116 citation statements)

References 27 publications

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“…Apparent quantum yield and F v /F m ratio at midday of both plants studied were very low when compared to rainforest climax species and did not show a complete recover at pre-dawn (Thompson et al 1992, Langenheim et al 1984, Lovelock et al 1994, Zipperlen & Press 1996, Barker et al 1997, Scholes et al 1997. However, with the exception of similar light levels in the studies of Langenheim et al (1984) and Ishida et al (1999), daily and maximum PFD under HL in our experiment were much higher than the high light treatments of those studies.…”

Section: Speciescontrasting

confidence: 55%

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Photosynthesis and carbon gain under contrasting light levels in seedlings of a pioneer and a climax tree from a Brazilian Semideciduous Tropical Forest

Silvestrini¹,

Válio²,

Mattos³

2007

Rev. bras. Bot.

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-(Photosynthesis and carbon gain under contrasting light levels in seedlings of a pioneer and a climax tree from a Brazilian Semideciduous Tropical Forest). In this study we evaluated photosynthetic characteristics and patterns of biomass accumulation in seedlings of two tree species from a Semideciduous Tropical Forest of Brazil. Seedlings of Trema micrantha (L.) Blum. (pioneer) and Hymenaea courbaril (L.) var. stilbocarpa (Hayne) Lee & Langenh. (climax) were grown for 4 months under low light (LL) (5%-8% of sunlight) and high light (HL) (100% of sunlight). Under HL, T. micrantha showed higher CO 2 assimilation rates (A CO 2 ) and light saturation than H. courbaril. Under LL, A CO 2 were higher in H. courbaril. Under LL, total chlorophyll and carotenoid contents per unit leaf area were higher in H. courbaril. Chlorophyll a/b ratio was higher in T. micrantha under both light regimes. A CO 2 and F v /F m ratio at both pre-dawn and midday in H. coubaril were lower in HL indicating chronic photoinhibition. Thus, the climax species was more susceptible to photoinhibition than the pioneer. However, H. courbaril produced higher total biomass under both treatments showing high efficiency in the maintenance of a positive carbon balance. Thus, both species expressed characteristics that favor growth under conditions that resemble their natural microenvironments, but H. courbaril also grew under HL. The ecophysiological range of responses to contrasting light levels of this climax plant seems to be broader than generally observed for other rainforest climax species. We propose that this could be related to the particular spatio-temporal light regime of the semideciduous forests.Key words -CO 2 assimilation, growth response to light, Hymenaea courbaril, photoinhibition, Trema micrantha RESUMO -(Fotossíntese e acúmulo de biomassa sob condições contrastantes de intensidade luminosa em plântulas de uma espécie pioneira e outra climácica de uma floresta estacional semidecidual do Brasil). Neste trabalho foram avaliadas características fotossintéticas e padrões de acúmulo de biomassa de duas espécies arbóreas de uma floresta estacional semidecidual. Plântulas de Trema micrantha (L.) Blum. (pioneira) e Hymenaea courbaril (L.) var. stilbocarpa (Hayne) Lee & Langenh. (climácica) foram cultivadas por quatro meses sob baixa radiação (BR) (5%-8% da radiação solar incidente) e alta radiação (AR) (100% da radiação solar incidente). Sob AR, T. micrantha apresentou maiores taxas de assimilação de CO 2 (A CO 2 ) e ponto de saturação luminosa. Sob BR, A CO 2 foram maiores em H. courbaril. Sob BR, o conteúdo de clorofilas e carotenóides totais por unidade de área foliar foi maior em H. courbaril. A razão clorofila a/b foi maior em T. micrantha sob os dois tratamentos. A CO 2 e razão F v /F m antes do amanhecer e no horário de máxima intensidade luminosa em H. courbaril foram menores sob AR, indicando a ocorrência de fotoinibição crônica. Apesar da suscetibilidade à fotoinibição, H. courbaril teve maior produção de biomassa. Dest...

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Section: Speciescontrasting

confidence: 55%

“…Under high radiation these species supposedly do not cope efficiently with more radiation than the capacity of photosynthetic utilisation. Thus, these species would be more sensitive to photoinhibition than pioneer species (Lovelock et al 1994).…”

Section: Introductionmentioning

confidence: 99%

Photosynthesis and carbon gain under contrasting light levels in seedlings of a pioneer and a climax tree from a Brazilian Semideciduous Tropical Forest

Silvestrini¹,

Válio²,

Mattos³

2007

Rev. bras. Bot.

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“…In leaves of G. hirsutum, the capacity of photosynthetic CO2 assimilation was increased. Acclimative responses of CO2 assimilation were also reported for a tropical understorey herb, Alocasia macrorrhiza (L.) G.Don subjected to simulated gap conditions (Mulkey and Pearcy 1992) and for plants of three tropical rain forest species grown in the shade and transferred to full sunlight (Lovelock et al 1994). Shade-grown seedlings of Anacardium excelsum (Bertero and Balb.)…”

Section: Introductionmentioning

confidence: 86%

“…Moreover, increases in xanthophyll-cycle pool size, midday deepoxidation levels and photosynthetic capacity were observed in leaves of shade-grown tree seedlings of four dipterocarp species (from the south-east Asian rain forest) exposed to full solar irradiance (Bungard et al 2000). The high initial susceptibility of PSII to photoinhibition in shade leaves was reduced upon high-light treatments (Mulkey and Pearcy 1992;Lovelock et al 1994;Bungard et al 2000;Kolb et al 2001). Changes in chloroplast structure and levels of chloroplast proteins were found upon high-light acclimation of mature leaves of the tropical epiphytic species, Guzmania monostachia (L.) Rusby ex Mez (MaxweUeia/.…”

Section: Introductionmentioning

confidence: 99%

Do mature shade leaves of tropical tree seedlings acclimate to high sunlight and UV radiation?

Krause

Grube

Koroleva

et al. 2004

Functional Plant Biol.

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Abstract. Seedlings of neotropical forest trees grown in low light were exposed to 0.5-9 h d~' direct sunlight, for up to 3 months, to test the capability of mature shade leaves to acclimate to full solar visible and UV radiation. Photosynthetic pigments and the antioxidant, ascorbate, were analysed in leaves of two pioneer and two latesuccession species. Seedlings of one or two of these species were used to assess further acclimative responses. Sunexposure for 0.5 or 1 h d~ ' resulted in strongly decreased a-carotene and increased ß-carotene and lutein levels. The pool size of xanthophyll-cycle pigments (sum of viola-, anthera-and zeaxanthin) was increased and their turnover was enhanced. These changes were associated with an increase in the capacity of non-photochemical fluorescence quenching and its 'energy-dependent' component, qE, and with reduced susceptibility to photoinhibition of PSII. Prolonged exposure to full direct sunlight (approximately 4 or 9 h d~') resulted in a marked decrease of chlorophyll a + b content and increase in chlorophyll alb ratios and the pool of xanthophyll-cycle pigments (based on chlorophyll), leading to extremely high zeaxanthin levels during high-light periods. Contents of ascorbate and UV-B-absorbing substances were substantially increased. PSI activity exhibited a response to full sunlight that is characteristic of sun leaves. Rates of net photosynthetic CO2 assimilation under saturating light were increased. The data show that mature shade leaves of seedlings of both early-and late-succession tree species can substantially acclimate to full-sunlight conditions by employing similar physiological mechanisms.

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“…We will not deal with 'external photoprotection' in which changes in leaf angle with time scales of minutes (Ludlow and Björkman 1984;Lovelock et al 1994), or with slower changes (days to weeks) in leaf surface reflective properties (Robinson and Osmond 1994), both of which substantially reduce absorption of light and engagement of the photoprotective processes described below. Nor will we deal with 'internal photoprotection' based on chloroplast movements that achieve the same end (Brugnoli and Björkman 1992).…”

Section: Differing Distribution Of Pigments and Differing Kinetics Ofmentioning

confidence: 99%

Canopy conundrums: building on the Biosphere 2 experience to scale measurements of inner and outer canopy photoprotection from the leaf to the landscape

Nichol

Pieruschka

Takayama

et al. 2012

Functional Plant Biol.

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Abstract. Recognising that plant leaves are the fundamental productive units of terrestrial vegetation and the complexity of different environments in which they must function, this review considers a few of the ways in which these functions may be measured and potentially scaled to the canopy. Although canopy photosynthetic productivity is clearly the sum of all leaves in the canopy, we focus on the quest for 'economical insights' from measurements that might facilitate integration of leaf photosynthetic activities into canopy performance, to better inform modelling based on the 'insights of economics'. It is focussed on the reversible downregulation of photosynthetic efficiency in response to light environment and stress and summarises various xanthophyll-independent and dependent forms of photoprotection within the inner and outer canopy of woody plants. Two main themes are developed. First, we review experiments showing the retention of leaves that grow old in the shade may involve more than the 'payback times' required to recover the costs of their construction and maintenance. In some cases at least, retention of these leaves may reflect selection for distinctive properties that contribute to canopy photosynthesis through utilisation of sun flecks or provide 'back up' capacity following damage to the outer canopy. Second, we report experiments offering hope that remote sensing of photosynthetic properties in the outer canopy (using chlorophyll fluorescence and spectral reflectance technologies) may overcome problems of access and provide integrated measurements of these properties in the canopy as a whole. Finding appropriate tools to scale photosynthesis from the leaf to the landscape still presents a challenge but this synthesis identifies some measurements and criteria in the laboratory and the field that improve our understanding of inner and outer canopy processes.

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Photoinhibition and recovery in tropical plant species: response to disturbance

Cited by 141 publications

References 27 publications

Photosynthesis and carbon gain under contrasting light levels in seedlings of a pioneer and a climax tree from a Brazilian Semideciduous Tropical Forest

Photosynthesis and carbon gain under contrasting light levels in seedlings of a pioneer and a climax tree from a Brazilian Semideciduous Tropical Forest

Do mature shade leaves of tropical tree seedlings acclimate to high sunlight and UV radiation?

Canopy conundrums: building on the Biosphere 2 experience to scale measurements of inner and outer canopy photoprotection from the leaf to the landscape

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