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A fragile soil moisture environment exacerbates the climate change-related impacts on the water use by Mongolian Scots pine (Pinus sylvestris var. mongolica) in northern China: Long-term observations

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  • Dang, Hongzhong
  • Han, Hui
  • Chen, Shuai
  • Li, Mingyang

Abstract

Characterizing the soil moisture environment in the plantation ecosystems may provide substantial information for judging the stability of forests in relation to climate change. In this study, we explored the level and the variations of water availability, as well as their influence on tree water use in the long-term. This was achieved by monitoring in particular the volumetric soil water content (θ), the groundwater level, the atmospheric vapor pressure deficit (VPD), and the sap flux-based forest transpiration (Tr) in a sand-fixation plantation of Mongolian Scots pine in northern China. The results showed a significant inter- and intra-annual variability of annual precipitation (Pr), for an average (±standard deviation) of ~ 476 ± 139 mm over the past 16-year study period. The inter-annual variations of the groundwater level showed a general downward trend, decreasing from −4.82 to −6.13 m. The relative extractable soil water (REW) between 0−1 m and between 1−2 m depth along soil profile was only 0.29 ± 0.14 and 0.16 ± 0.08, respectively, indicating a decreasing of soil moisture capacity and of the moisture depletion patterns with depth. The statistics relative to the past seven years (between 2013−2019) indicate an average Tr of 193 ± 59 mm for Mongolian Scots pines. Notably, their transpiration capability (Tr/VPD) declined with the decrease of REW0−1 m: the boundary curve showed a clear exponential decline. The threshold value of REW0–1 m (deduced from an abrupt decrease of Tr/VPD) was ~ 0.41 and 0.35 at the daily and monthly timescales, respectively. The average Tr/Pr value was 0.42 (maximum = 0.60) and Tr accounted on average for 55% of the total evapotranspiration (maximum = 77%). Soil drought prevailed at the study site; however, we did not notice a heavy use of soil water resources by Mongolian Scots pine. The results, overall, underlined the causes rather than the consequences of the observed soil moisture conditions, which are leading to the degradation of Mongolian Scots pine. Forest management measures causing moderate disturbance are hence recommended for mitigating the water competition between Mongolian Scots pine and sub-canopy vegetation.

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  • Dang, Hongzhong & Han, Hui & Chen, Shuai & Li, Mingyang, 2021. "A fragile soil moisture environment exacerbates the climate change-related impacts on the water use by Mongolian Scots pine (Pinus sylvestris var. mongolica) in northern China: Long-term observations," Agricultural Water Management, Elsevier, vol. 251(C).
    • Handle: RePEc:eee:agiwat:v:251:y:2021:i:c:s0378377421001220
    DOI: 10.1016/j.agwat.2021.106857
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    References listed on IDEAS

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    1. Song, Lining & Zhu, Jiaojun & Li, Mingcai & Zhang, Jinxin & Lv, Linyou, 2016. "Sources of water used by Pinus sylvestris var. mongolica trees based on stable isotope measurements in a semiarid sandy region of Northeast China," Agricultural Water Management, Elsevier, vol. 164(P2), pages 281-290.
    2. Jaivime Evaristo & Scott Jasechko & Jeffrey J. McDonnell, 2015. "Global separation of plant transpiration from groundwater and streamflow," Nature, Nature, vol. 525(7567), pages 91-94, September.
    3. Kimberly A. Novick & Darren L. Ficklin & Paul C. Stoy & Christopher A. Williams & Gil Bohrer & A. Christopher Oishi & Shirley A. Papuga & Peter D. Blanken & Asko Noormets & Benjamin N. Sulman & Russel, 2016. "The increasing importance of atmospheric demand for ecosystem water and carbon fluxes," Nature Climate Change, Nature, vol. 6(11), pages 1023-1027, November.
    4. William R. L. Anderegg & Anna T. Trugman & Grayson Badgley & Alexandra G. Konings & John Shaw, 2020. "Divergent forest sensitivity to repeated extreme droughts," Nature Climate Change, Nature, vol. 10(12), pages 1091-1095, December.
    5. Brendan Choat & Timothy J. Brodribb & Craig R. Brodersen & Remko A. Duursma & Rosana López & Belinda E. Medlyn, 2018. "Triggers of tree mortality under drought," Nature, Nature, vol. 558(7711), pages 531-539, June.
    6. Zheng, X. & Zhu, J.J. & Yan, Q.L. & Song, L.N., 2012. "Effects of land use changes on the groundwater table and the decline of Pinus sylvestris var. mongolica plantations in southern Horqin Sandy Land, Northeast China," Agricultural Water Management, Elsevier, vol. 109(C), pages 94-106.
    7. Chi Chen & Taejin Park & Xuhui Wang & Shilong Piao & Baodong Xu & Rajiv K. Chaturvedi & Richard Fuchs & Victor Brovkin & Philippe Ciais & Rasmus Fensholt & Hans Tømmervik & Govindasamy Bala & Zaichun , 2019. "China and India lead in greening of the world through land-use management," Nature Sustainability, Nature, vol. 2(2), pages 122-129, February.
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