Rakesh Tiwari scite author profile

Tropical forests are experiencing unprecedented high‐temperature conditions due to climate change that could limit their photosynthetic functions. We studied the high‐temperature sensitivity of photosynthesis in a rainforest site in southern Amazonia, where some of the highest temperatures and most rapid warming in the Tropics have been recorded. The quantum yield (Fv/Fm) of photosystem II was measured in seven dominant tree species using leaf discs exposed to varying levels of heat stress. T50 was calculated as the temperature at which Fv/Fm was half the maximum value. T5 is defined as the breakpoint temperature, at which Fv/Fm decline was initiated. Leaf thermotolerance in the rapidly warming southern Amazonia was the highest recorded for forest tree species globally. T50 and T5 varied between species, with one mid‐storey species, Amaioua guianensis, exhibiting particularly high T50 and T5 values. While the T50 values of the species sampled were several degrees above the maximum air temperatures experienced in southern Amazonia, the T5 values of several species are now exceeded under present‐day maximum air temperatures.

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Photosynthetic quantum efficiency in South-Eastern Amazonian trees may be already affected by climate change

Tiwari¹,

Gloor²,

Cruz³

et al.

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Trees at the Amazonia-Cerrado transition are approaching high temperature thresholds

Araújo

Marimon

Scalon

et al. 2021

Environ. Res. Lett.

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Land regions are warming rapidly. While in a warming world at extra-tropical latitudes vegetation adapted to higher temperatures may move in from lower latitudes this is not possible in the tropics. Thus, the limits of plant functioning will determine the nature and composition of future vegetation. The most temperature sensitive component of photosynthesis is photosystem II. Here we report the thermal safety margin (difference between photosystem II thermotolerance (T50) and maximum leaf temperature) during the beginning of the dry season for four tree species co-occurring across the forest-savanna transition zone in Brazil, a region which has warmed particularly rapidly over the recent decades. The species selected are evergreen in forests but deciduous in savannas. We find that thermotolerance declines with growth temperature >40 °C for individuals in the savannas. Current maximum leaf temperatures exceed T50 in some species and will exceed T50 in a 2.5 °C warmer world in most species evaluated. Despite plasticity in leaf thermal traits to increase leaf cooling in hotter environments, the results show this is not sufficient to maintain a safe thermal safety margin in hotter savannas. Overall, the results suggest that tropical forests may become increasingly deciduous and savanna-like in the future.

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Groundnut cultivation in semi-arid peninsular India for yield scaled nitrous oxide emission reduction

Kritee

Nair

Tiwari

et al. 2015

Nutr Cycl Agroecosyst

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Rakesh Tiwari

Contrasting responses of stomatal conductance and photosynthetic capacity to warming and elevated CO2 in the tropical tree species Alchornea glandulosa under heatwave conditions

Photosynthetic quantum efficiency in south‐eastern Amazonian trees may be already affected by climate change

Photosynthetic quantum efficiency in South-Eastern Amazonian trees may be already affected by climate change

Trees at the Amazonia-Cerrado transition are approaching high temperature thresholds

Groundnut cultivation in semi-arid peninsular India for yield scaled nitrous oxide emission reduction

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