2013
DOI: 10.3402/tellusb.v65i0.19994
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How will land use affect air temperature in the surface boundary layer? Lessons learned from a comparative study on the energy balance of an oak savanna and annual grassland in California, USA

Abstract: A B S T R A C TWe investigated the effect of land use on differences in air temperature. We based our analysis on a decade of weather and energy flux measurements, collected over two contrasting landscapes, an oak savanna and an annual grassland, growing under the same climate conditions. Over the decade, the daily-averaged, potential air temperature above the aerodynamically rougher and optically darker oak savanna was 0.58C warmer than that above the aerodynamically smoother and optically brighter annual gra… Show more

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Cited by 104 publications
(125 citation statements)
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“…Mean and upper limit temperature responses to LCC and LMC were similar (Fig. 1b) and around 2 K at the site-level, with a maximum of 6 K. Because LCC was used as a benchmark for LMC and our findings for LCC are in agreement with previous observations regarding LCC in the tropics 3,7 , Mediterranean 19 and the boreal zone 6 our study lends support to the hypothesis that LMC other than irrigation 10,11 also has substantial biophysical impacts on the land surface.…”
supporting
confidence: 82%
See 1 more Smart Citation
“…Mean and upper limit temperature responses to LCC and LMC were similar (Fig. 1b) and around 2 K at the site-level, with a maximum of 6 K. Because LCC was used as a benchmark for LMC and our findings for LCC are in agreement with previous observations regarding LCC in the tropics 3,7 , Mediterranean 19 and the boreal zone 6 our study lends support to the hypothesis that LMC other than irrigation 10,11 also has substantial biophysical impacts on the land surface.…”
supporting
confidence: 82%
“…4c, p = 0.33). Larger ranges and loss of correlation illustrate the complexity of the effects of land use change on atmospheric temperature 19 , or the plausibility of the current PBL model, which does not capture any cloud or advective processes 28 .…”
mentioning
confidence: 99%
“…A1a was set as a constant for general vegetation types. We used daily average values measured during mid-summer at a woodland and grassland site in California [80] The canopy conductance, g c , in Eq. A1 was either calculated explicitly from stomatal conductance in relation to photosynthetic carbon gain, as described below, or set to specific prescribed values for some generic illustrations to: …”
Section: Discussionmentioning
confidence: 99%
“…This is calculated for typical forests (a, c) and grasslands (b, d) that are either stressed or wellwatered, with corresponding differences in canopy conductances. We assumed aerodynamic conductances of 3.33 cm s −1 for forests and 1.54 cm s −1 for grasslands [80] and canopy resistances of 2 and 0.5 cm s −1 for unstressed and stressed plants, respectively. Net radiation was kept at 400 Îźmol (quanta) m −2 s −1 for all simulations, and the daytime minus night-time temperature difference was 10°C closure, forests can also exert greater control over their transpiration rates than grasslands.…”
Section: Transpiration Rates Under Changing [Co 2 ] and Temperaturementioning
confidence: 99%
“…Agriculture often leads to cooling temperature in different patterns, and the cooling effect can usually be magnified when it comes to irrigation (Campra et al, 2008;Kueppers et al, 2007;Lobell et al, 2006;Zhang et al, 2011). For this reason, analyzing different types of land use plays an important role not only in evaluating climate change on different spatial scales (Alkama and Cescatti, 2016;Baldocchi and Ma, 2013;Huang et al, 2008;Wang et al, 2010;Hari et al, 2016), but also in improving the predictive capacity of models (Huang et al, 2015;Niu et al, 2011;Zhang et al, 2015). Although there have been many studies concentrating on LULCC, they rarely compare the differences in the mechanisms behind the land-atmosphere interaction with different types of land use.…”
Section: Introductionmentioning
confidence: 99%