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W3196889300 endingPage "115404" @default.
W3196889300 startingPage "115404" @default.
W3196889300 abstract "Soil respiration is an important component of the carbon (C) cycle and a major contributor to total ecosystem C efflux. Knowledge of the factors that drive soil respiration in drylands is limited, despite these regions represent more than 40% of the Earth land’s surface. In these environments, biocrusts play an important role in CO2 exchange towards and from soils. However, the temporal dynamics and main drivers of CO2 efflux in biocrusts compared to other representative dryland covers such as bare soil and soil under perennial grasses, has not been fully investigated. In this study, we measured the soil CO2 molar fraction (χc) at 2 and 5 cm depths in representative surface covers (cyanobacteria and lichen dominated biocrusts, soil under the alpha grass Macrochloa tenacissima and bare soil) from a semiarid area in SE Spain (Tabernas desert, Almeria) using small solid-state CO2 sensors, during one hydrological year. We determined the CO2 efflux (Fs) from the 0 to 5 cm soil profile using the gradient method. Our results show that soil χc and Fs were low in all surface covers (on average, 464 ppm at 5 cm) during dry soil periods (soil moisture <0.05 m3 m−3). χc and subsequent Fs rapidly increased after rainfall, and showed the highest values in the soil under grass (M. tenacissima) and lichen biocrusts. Time series analysis of Fs allowed identifying periodic patterns in Fs strongly related to moisture and temperature periodicities. Moisture was the main driver for Fs on timescales of weeks and months, while temperature was the main driver on daily scales. Moisture exerted a greater influence on Fs in lichen and soil under grass, while temperature had a greater effect on Fs in cyanobacteria and bare soil. Estimated annual CO2 efflux was 633 g CO2 m−2 y-1 in the soil under M. tenacissima, 450 g CO2 m−2 y-1 in the lichen biocrust, 268 g CO2 m−2 y-1 in the cyanobacterial biocrust and 188 g CO2 m−2 y-1 in the bare soil. On the whole, we demonstrate the suitability of automated Fs measurements for characterising rapid changes in C efflux from dryland surfaces due to changing environmental conditions, which can help improve C predictions in drylands under current climate change." @default.
W3196889300 created "2021-09-13" @default.
W3196889300 creator A5013081203 @default.
W3196889300 creator A5067737849 @default.
W3196889300 creator A5069353344 @default.
W3196889300 creator A5081883788 @default.
W3196889300 creator A5091827803 @default.
W3196889300 date "2022-01-01" @default.
W3196889300 modified "2023-10-14" @default.
W3196889300 title "Temporal dynamics of dryland soil CO2 efflux using high-frequency measurements: Patterns and dominant drivers among biocrust types, vegetation and bare soil" @default.
W3196889300 cites W1482454811 @default.
W3196889300 cites W1546999465 @default.
W3196889300 cites W1951724000 @default.
W3196889300 cites W1965460120 @default.
W3196889300 cites W1981164456 @default.
W3196889300 cites W1982811113 @default.
W3196889300 cites W1987498644 @default.
W3196889300 cites W1988396787 @default.
W3196889300 cites W2003253333 @default.
W3196889300 cites W2008667240 @default.
W3196889300 cites W2009760276 @default.
W3196889300 cites W2013551586 @default.
W3196889300 cites W2017207489 @default.
W3196889300 cites W2017929743 @default.
W3196889300 cites W2031872945 @default.
W3196889300 cites W2032986314 @default.
W3196889300 cites W2035792000 @default.
W3196889300 cites W2041671416 @default.
W3196889300 cites W2044675541 @default.
W3196889300 cites W2044770499 @default.
W3196889300 cites W2052552328 @default.
W3196889300 cites W2053132002 @default.
W3196889300 cites W2053957981 @default.
W3196889300 cites W2055858991 @default.
W3196889300 cites W2057046862 @default.
W3196889300 cites W2059522850 @default.
W3196889300 cites W2066814891 @default.
W3196889300 cites W2074509617 @default.
W3196889300 cites W2081719320 @default.
W3196889300 cites W2084003840 @default.
W3196889300 cites W2084205369 @default.
W3196889300 cites W2090614089 @default.
W3196889300 cites W2091672286 @default.
W3196889300 cites W2100051617 @default.
W3196889300 cites W2102729778 @default.
W3196889300 cites W2105374617 @default.
W3196889300 cites W2123606919 @default.
W3196889300 cites W2127514760 @default.
W3196889300 cites W2134078304 @default.
W3196889300 cites W2135976813 @default.
W3196889300 cites W2140937955 @default.
W3196889300 cites W2144011261 @default.
W3196889300 cites W2145808276 @default.
W3196889300 cites W2149168164 @default.
W3196889300 cites W2149829096 @default.
W3196889300 cites W2152917430 @default.
W3196889300 cites W2154047482 @default.
W3196889300 cites W2158404729 @default.
W3196889300 cites W2158806627 @default.
W3196889300 cites W2162136094 @default.
W3196889300 cites W2172956642 @default.
W3196889300 cites W2174655749 @default.
W3196889300 cites W2177538835 @default.
W3196889300 cites W2289186930 @default.
W3196889300 cites W2290394517 @default.
W3196889300 cites W2315668843 @default.
W3196889300 cites W2508111570 @default.
W3196889300 cites W2554043440 @default.
W3196889300 cites W2557406995 @default.
W3196889300 cites W2591310990 @default.
W3196889300 cites W2755148492 @default.
W3196889300 cites W2774864351 @default.
W3196889300 cites W2782933057 @default.
W3196889300 cites W2789763523 @default.
W3196889300 cites W2794537464 @default.
W3196889300 cites W2800170396 @default.
W3196889300 cites W2805790857 @default.
W3196889300 cites W2806889580 @default.
W3196889300 cites W2810398067 @default.
W3196889300 cites W2884016867 @default.
W3196889300 cites W2884637108 @default.
W3196889300 cites W2885207512 @default.
W3196889300 cites W2896000940 @default.
W3196889300 cites W2900947305 @default.
W3196889300 cites W2912241050 @default.
W3196889300 cites W2968690448 @default.
W3196889300 cites W3005995736 @default.
W3196889300 cites W3033107915 @default.
W3196889300 cites W3041455703 @default.
W3196889300 cites W3081151572 @default.
W3196889300 cites W3129116016 @default.
W3196889300 cites W3129870685 @default.
W3196889300 cites W4237419767 @default.
W3196889300 doi "https://doi.org/10.1016/j.geoderma.2021.115404" @default.
W3196889300 hasPublicationYear "2022" @default.
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