Optimum temperature for photosynthesis: from leaf- to ecosystem-scale. | Semantic Scholar (2024)

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Figures from this paper 20 Citations 18 References Related Papers

Figures from this paper

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20 Citations

Nonlinear Thermal Responses Outweigh Water Limitation in the Attenuated Effect of Climatic Warming on Photosynthesis in Northern Ecosystems
    Gaofei YinA. VergerAdrià DescalsI. FilellaJ. Peñuelas

    Environmental Science

    Geophysical Research Letters

  • 2022

Plant photosynthesis is strongly limited by temperature at high northern latitudes. The temperature sensitivity of plant photosynthesis in scenarios of future climatic warming, however, is highly

  • 4
  • Highly Influenced
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Inhibitive Effects of Recent Exceeding Air Temperature Optima of Vegetation Productivity and Increasing Water Limitation on Photosynthesis Reversed Global Greening
    Baozhang ChenYu Ke Yiqi Luo

    Environmental Science

    Earth's Future

  • 2022

Global terrestrial vegetation dynamics have been rapidly altered by climate change. A widespread vegetation greenness over a large part of the planet from the 1980s to early this century has been

  • 5
  • Highly Influenced
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Divergent responses of evergreen needle-leaf forests in Europe to the 2020 warm winter 1
    Mana GharunAnkit Shekhar N. Buchmann

    Environmental Science

Abstract

  • Highly Influenced
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Climate change increases net CO 2 assimilation in the leaves of strawberry, but not yield
    Christopher Michael Menzel

    Agricultural and Food Sciences, Environmental Science

    The Journal of Horticultural Science and…

  • 2023
  • PDF
Synchronized slowdown of climate warming and carbon sink enhancement over deciduous broadleaf forests based on FLUXNET analysis
    Tingting XuA. ZhangXiyan XuGensuo Jia

    Environmental Science

    Ecological Indicators

  • 2023
  • 2
Analysis of the optimal photosynthetic environment for an alpine meadow ecosystem
    Tao ZhangDanfeng Wang Yongtao He

    Environmental Science, Agricultural and Food Sciences

    Agricultural and Forest Meteorology

  • 2023
Stem growth of Amazonian species is driven by intra-annual variability in rainfall, vapor pressure and evapotranspiration
    M. CamargoR. A. Marenco

    Environmental Science

    Acta Botanica Brasilica

  • 2023

Intra-annual distribution of precipitation in central Amazonia often leads to a short mild dry season and an increase in irradiance, temperature, and vapor pressure deficit; however, the accurate

  • 1
  • PDF
Improving the Estimation of Gross Primary Productivity across Global Biomes by Modeling Light Use Efficiency through Machine Learning
    Daqian KongDekun Yuan Sha Zhang

    Environmental Science, Computer Science

    Remote. Sens.

  • 2023

This study revealed the reliable and robust performance of the developed hybrid LUE when simulating GPP across global biomes, providing references for developing better hybrid GPP models.

  • 1
  • PDF
Dominant temperate and subalpine Japanese trees have variable photosynthetic thermal optima according to site mean annual temperature
    Yuta KobayashiChihiro HagaNaoto ShinoharaKeita NishizawaAkira S. Mori

    Environmental Science, Biology

    Global Ecology and Biogeography

  • 2023
  • 2

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18 References

Air temperature optima of vegetation productivity across global biomes
    Mengtian HuangS. Piao I. Janssens

    Environmental Science

  • 2019

In tropical forests in particular, Topteco is close to growing-season air temperature and is projected to fall below it under all scenarios of future climate, suggesting a limited safe operating space for these ecosystems under future warming.

  • 319
  • Highly Influential
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TanSat: a new star in global carbon monitoring from China.
    Y. RanXin Li

    Environmental Science

    Science bulletin

  • 2019
  • 19
Retrieval of global terrestrial solar-induced chlorophyll fluorescence from TanSat satellite.
    Shanshan DuLiangyun Liu Lianchong Zhang

    Environmental Science, Physics

    Science bulletin

  • 2018
  • 113
  • PDF
Spatiotemporal Patterns of Vegetation Greenness Change and Associated Climatic and Anthropogenic Drivers on the Tibetan Plateau during 2000-2015
    Lanhui LiYili Zhang B. Paudel

    Environmental Science, Geography

    Remote. Sens.

  • 2018

It is found that, to some extent, anthropogenic disturbances offset climate-driven vegetation greening and aggravated vegetation browning induced by water deficit, suggesting that the impact of anthropogenic activities on vegetation change might not overwhelm that of climate change at the region scale.

Seasonal Responses of Terrestrial Carbon Cycle to Climate Variations in CMIP5 Models: Evaluation and Projection
    Yongwen LiuS. PiaoXu LianP. CiaisW. K. Smith

    Environmental Science

  • 2017

National Natural Science Foundation of China [41530528, 41561134016]; 111 Project; National Youth Top-notch Talent Support Program in China; European Research Council Synergy Grant

  • 12
  • PDF
Optimum air temperature for tropical forest photosynthesis: mechanisms involved and implications for climate warming
    Z. TanJ. Zeng N. Restrepo-Coupe

    Environmental Science

  • 2016

C-project of Talent, Hainan University; National Natural Science Foundation of China [31660142]; NASA LBA-DMIP project [NNX09AL52G]; NASA LBA investigation [CD-32]; National Science Foundation's

  • 54
  • PDF
Weakening temperature control on the interannual variations of spring carbon uptake across northern lands
    S. PiaoZhuo Liu P. Tans

    Environmental Science

  • 2017

Atmospheric CO2 concentration measurements at Barrow, Alaska, together with coupled atmospheric transport and terrestrial ecosystem models show a declining spring net primary productivity response to

  • 186
  • PDF
Large historical growth in global terrestrial gross primary production
    Jesse W. CampbellJ. A. Berry M. Laine

    Environmental Science

    Nature

  • 2017

This work presents a global, measurement-based estimate of GPP growth during the twentieth century that is based on long-term atmospheric carbonyl sulfide records, derived from ice-core, firn and ambient air samples, and interprets these records using a model that simulates changes in COS concentration according to changes in its sources and sinks.

  • 220
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Wet deposition of atmospheric inorganic nitrogen at five remote sites in the Tibetan Plateau
    Yongwen LiuXu‐RiYuesi WangYuepeng PanS. Piao

    Environmental Science

  • 2015

Abstract. Since the mid-20th century, nitrogen (N) deposition has shown an increasing trend in the Tibetan Plateau (TP), where alpine ecosystems are sensitive to elevated N deposition. However, the

Spatiotemporal patterns of terrestrial gross primary production: A review
    A. AnavP. Friedlingstein Maosheng Zhao

    Environmental Science

  • 2015

Great advances have been made in the last decade in quantifying and understanding the spatiotemporal patterns of terrestrial gross primary production (GPP) with ground, atmospheric, and space

  • 453
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See Also
Future TRFs and GGOS - Where to put the next SLR station?

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