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  • 1
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    Permafrost, Active Layer Thickness and Soil Organic Carbon Maps over the Tibetan Plateau (2019)
    PANGAEA
    In:  Supplement to: Wang, Taihua; Yang, Dawen; Yang, Yuting; Piao, Shilong; Li, Xin; Cheng, Guodong; Fu, Bojie (2020): Permafrost thawing puts the frozen carbon at risk over the Tibetan Plateau. Science Advances, 6(19), eaaz3513, https://doi.org/10.1126/sciadv.aaz3513
    Details
    Publication Date: 2023-07-19
    Description: Using recent observations of mean annual ground temperature (MAGT) at or near (the closest to) the depth of zero annual amplitude, active layer thickness (ALT) and soil organic carbon (SOC) at different depth measured during the baseline period (2006-2015) over the Tibetan Plateau (TP), we estimated the permafrost distribution over TP, as well as the ALT and SOC distribution across the TP permafrost region during the same period using data-driven approaches.
    Keywords: active layer; MULT; Multiple investigations; Permafrost; soil organic carbon; TibetanPlateau; Tibetan Plateau
    Type: Dataset
    Format: application/zip, 4.1 MBytes
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    DATA PANGAEA
  • 2
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    The global forest age dataset and its uncertainties (GFADv1.1) (2019)
    PANGAEA
    In:  NASA National Aeronautics and Space Administration
    Details
    Publication Date: 2023-11-21
    Description: The global forest age dataset (GFAD v.1.1) provides a correction to GFAD v1.0, as well as its uncertainties. GFAD describes the age distributions of plant functional types (PFT) on a 0.5-degree grid. Each grid cell contains information on the fraction of each PFT within an age class. The four PFTs, needleaf evergreen (NEEV), needleleaf deciduous (NEDE), broadleaf evergreen (BREV) and broadleaf deciduous (BRDC) are mapped from the MODIS Collection 5.1 land cover dataset, crosswalking land cover types to PFT fractions. The source of data for the age distributions is from country-level forest inventory for temperate and high-latitude countries, and from biomass for tropical countries. The inventory and biomass data are related to fifteen age classes defined in ten-year intervals, from 1-10 up to a class greater than 150 years old. The uncertainties are estimated for the inventory derived forest age classes as +/- 40% of the mean age. For the areas where age is derived from aboveground biomass, the uncertainty is derived from the 5th and 95th percentile estimates of biomass, but using the same age-aboveground biomass curves. The GFAD dataset represents the 2000-2010 era.
    Type: Dataset
    Format: application/zip, 30.3 MBytes
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    DATA PANGAEA
  • 3
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    The global forest age dataset (GFADv1.0), link to NetCDF file (2018)
    PANGAEA
    In:  NASA National Aeronautics and Space Administration
    Details
    Publication Date: 2023-11-21
    Description: The global forest age dataset (GFAD) describes the age distributions of plant functional types (PFT) on a 0.5-degree grid. Each grid cell contains information on the fraction of each PFT within an age class. The four PFTs, needleaf evergreen (NEEV), needleleaf deciduous (NEDE), broadleaf evergreen (BREV) and broadleaf deciduous (BRDC) are mapped from the MODIS Collection 5.1 land cover dataset, crosswalking land cover types to PFT fractions. The source of data for the age distributions is from country-level forest inventory for temperate and high-latitude countries, and from biomass for tropical countries. The inventory and biomass data are related to fifteen age classes defined in ten-year intervals, from 1-10 up to a class greater than 150 years old. The GFAD dataset represents the 2000-2010 era.
    Type: Dataset
    Format: application/zip, 10.1 MBytes
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 4
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    Ecosystem variables including GPP, NPP, ET, LST, et al. in China during 2001~2018 (6.14 GB) (2021)
    PANGAEA
    Details
    Publication Date: 2024-04-20
    Description: China has promoted its vegetation cover and terrestrial carbon sink through ecological restorations since the end of the 20th century. However, the temporal variation in vegetation carbon sequestration remains unclear, and the relative effects of climate change and human efforts are under debate. By integrating remote sensing and machine learning approaches into modelling, we explored the biological and physical pathways by which both climate change and human activities (e.g., ecological restoration, cropland expansion, and urbanization) have altered the Chinese terrestrial ecosystem, including the vegetation cover, surface heat fluxes, water flux and finally, vegetation carbon sequestration (i.e., gross and net primary production, GPP and NPP). During 2001~2018, GPP in China increased significantly at a rate of 49.1~53.1 TgC/yr2, and the climatic and anthropogenic contributions to GPP gains were comparable (48%~56% vs. 44%~52%). Spatially, afforestation dominated the forest cover expansions in the farming-pastoral ecotone in northern China, the Loess Plateau and the southwest karst region, while climate change promoted vegetation cover in most parts of southeastern China. Meanwhile, the NPP trend (22.4~24.9 TgC/yr2) during 2001~2018 was highly attributed to human disturbances (71%~81%), particularly in southern, eastern and northeastern China. The increases in both GPP and NPP both accelerated after 2010. This is because that over 2001~2010, the anthropogenic NPP gains were generally offset by the negative climatic impact in southern China. However, after 2010, the climatic influence reversed, becoming positive, thus magnifying the positive impact of ecological restoration.
    Type: Dataset
    Format: application/zip, 6.1 GBytes
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    DATA PANGAEA
  • 5
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    Emerging opportunities and challenges in phenology : a review (2016)
    John Wiley & Sons
    Details
    Publication Date: 2022-05-25
    Description: © The Author(s), 2016. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Ecosphere 7 (2016): e01436, doi:10.1002/ecs2.1436.
    Description: Plant phenology research has gained increasing attention because of the sensitivity of phenology to climate change and its consequences for ecosystem function. Recent technological development has made it possible to gather invaluable data at a variety of spatial and ecological scales. Despite our ability to observe phenological change at multiple scales, the mechanistic basis of phenology is still not well understood. Integration of multiple disciplines, including ecology, evolutionary biology, climate science, and remote sensing, with long-term monitoring data across multiple spatial scales is needed to advance understanding of phenology. We review the mechanisms and major drivers of plant phenology, including temperature, photoperiod, and winter chilling, as well as other factors such as competition, resource limitation, and genetics. Shifts in plant phenology have significant consequences on ecosystem productivity, carbon cycling, competition, food webs, and other ecosystem functions and services. We summarize recent advances in observation techniques across multiple spatial scales, including digital repeat photography, other complementary optical measurements, and solar-induced fluorescence, to assess our capability to address the importance of these scale-dependent drivers. Then, we review phenology models as an important component of earth system modeling. We find that the lack of species-level knowledge and observation data leads to difficulties in the development of vegetation phenology models at ecosystem or community scales. Finally, we recommend further research to advance understanding of the mechanisms governing phenology and the standardization of phenology observation methods across networks. With the opportunity for “big data” collection for plant phenology, we envision a breakthrough in process-based phenology modeling.
    Description: U.S. National Science Foundation Grant Numbers: PLR-1417763, DBI-959333, AGS-1005663; University of Chicago and the MBL Lillie Research Innovation Award; NEXT Program; KAKENHI (MEXT, Japan); National Science Foundation of China Grant Number: 41571103; NERC Grant Number: NE/J02080X/1
    Keywords: Cameras ; Greenness ; ILTER ; Modeling ; Phenology ; Scale ; International LTER
    Repository Name: Woods Hole Open Access Server
    Type: Article
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    PAPER (OA)
  • 6
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    Global Carbon and other Biogeochemical Cycles and Feedbacks (2021)
    IPCC
    In:  In: Climate Change 2021: The Physical Science Basis: Contribution of Working Group I to the Sixth : Assessment Report of the Intergovernmental Panel on Climate Change : Chapter 5. , ed. by Masson-Delmotte, V., Zhai, P., Pirani, A., Conners, S. L., Pean, C., Berger, S., Caud, N., Chen, Y., Goldfarb, L., Gomis, M. I., Huang, M., Leitzell, K., Lonnoy, E., Matthews, J. B. R., Maycock, T. K., Waterfield, T., Yelekci, O., Yu, R. and Zhou, B. IPCC, Genf, Switzerland, pp. 1-221.
    Details
    Publication Date: 2022-01-06
    Type: Book chapter , NonPeerReviewed
    Format: text
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    OceanRep: Book chapter
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