SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2010824822> ?p ?o ?g. }

Showing items 1 to 100 of ±161 with 100 items per page.

W2010824822 endingPage "464" @default.
W2010824822 startingPage "452" @default.
W2010824822 abstract "Soil burn severity has been widely used to describe the impacts of fire on soils and is increasingly being recognised as a decisive factor controlling post-fire erosion rates. However, there is no unique definition of the term and the relationship between soil burn severity and post-fire hydrological and erosion response has not yet been fully established. The objective of this work was to review the existing literature on the role of soil burn severity on post-fire runoff and erosion ratios. To this end, a meta-analysis was carried out of the runoff and inter-rill erosion data from field rainfall simulation experiments (RSE’s) that compared burnt and unburnt conditions. In this study, 109 individual observations were analysed that covered a wide geographical range, various types of land cover (forest, shrubland, and grassland) and two types of fire types (wildfire and prescribed fire). The effect size of the post-fire runoff and erosion response was determined for four key factors: (i) soil burn severity; (ii) time-since-fire; (iii) rainfall intensity; and (iv) bare soil cover. Statistical meta-analysis showed that fire occurrence had a significant effect on the hydrological and erosive response. However, this effect was only significantly higher with increasing soil burn severity for inter-rill erosion, and not for runoff. This study furthermore highlighted the incoherencies between existing burn severity classifications, and proposed an unambiguous classification." @default.
W2010824822 created "2016-06-24" @default.
W2010824822 creator A5033537246 @default.
W2010824822 creator A5047575233 @default.
W2010824822 creator A5053963590 @default.
W2010824822 creator A5057824771 @default.
W2010824822 date "2015-04-01" @default.
W2010824822 modified "2023-10-03" @default.
W2010824822 title "Does soil burn severity affect the post-fire runoff and interrill erosion response? A review based on meta-analysis of field rainfall simulation data" @default.
W2010824822 cites W1498257015 @default.
W2010824822 cites W1570028788 @default.
W2010824822 cites W1598587824 @default.
W2010824822 cites W1600601778 @default.
W2010824822 cites W1747820945 @default.
W2010824822 cites W1899572987 @default.
W2010824822 cites W1956418552 @default.
W2010824822 cites W1964212767 @default.
W2010824822 cites W1967270725 @default.
W2010824822 cites W1971091095 @default.
W2010824822 cites W1971853408 @default.
W2010824822 cites W1971981820 @default.
W2010824822 cites W1972036209 @default.
W2010824822 cites W1975869979 @default.
W2010824822 cites W1978469658 @default.
W2010824822 cites W1984118990 @default.
W2010824822 cites W1986154015 @default.
W2010824822 cites W1986945538 @default.
W2010824822 cites W1988717002 @default.
W2010824822 cites W1990572683 @default.
W2010824822 cites W1991808729 @default.
W2010824822 cites W1992050944 @default.
W2010824822 cites W1994735267 @default.
W2010824822 cites W2003210499 @default.
W2010824822 cites W2006346825 @default.
W2010824822 cites W2006391442 @default.
W2010824822 cites W2008217882 @default.
W2010824822 cites W2011762611 @default.
W2010824822 cites W2018208375 @default.
W2010824822 cites W2019163615 @default.
W2010824822 cites W2019974367 @default.
W2010824822 cites W2021372434 @default.
W2010824822 cites W2021413238 @default.
W2010824822 cites W2024615693 @default.
W2010824822 cites W2025561964 @default.
W2010824822 cites W2025800697 @default.
W2010824822 cites W2026363605 @default.
W2010824822 cites W2027342734 @default.
W2010824822 cites W2029633652 @default.
W2010824822 cites W2031271615 @default.
W2010824822 cites W2032395024 @default.
W2010824822 cites W2042047887 @default.
W2010824822 cites W2044816661 @default.
W2010824822 cites W2049987179 @default.
W2010824822 cites W2051117095 @default.
W2010824822 cites W2052501820 @default.
W2010824822 cites W2052870063 @default.
W2010824822 cites W2068047449 @default.
W2010824822 cites W2074109349 @default.
W2010824822 cites W2075673711 @default.
W2010824822 cites W2076904246 @default.
W2010824822 cites W2078392711 @default.
W2010824822 cites W2078492707 @default.
W2010824822 cites W2079047525 @default.
W2010824822 cites W2086540959 @default.
W2010824822 cites W2091410512 @default.
W2010824822 cites W2094193479 @default.
W2010824822 cites W2094496486 @default.
W2010824822 cites W2095189115 @default.
W2010824822 cites W2097857034 @default.
W2010824822 cites W2099647996 @default.
W2010824822 cites W2101144110 @default.
W2010824822 cites W2101175601 @default.
W2010824822 cites W2102428152 @default.
W2010824822 cites W2107380413 @default.
W2010824822 cites W2109236311 @default.
W2010824822 cites W2110306174 @default.
W2010824822 cites W2119901561 @default.
W2010824822 cites W2131744835 @default.
W2010824822 cites W2139168999 @default.
W2010824822 cites W2143835641 @default.
W2010824822 cites W2150313815 @default.
W2010824822 cites W2156568814 @default.
W2010824822 cites W2160235347 @default.
W2010824822 cites W2160514196 @default.
W2010824822 cites W2161434576 @default.
W2010824822 cites W2224515721 @default.
W2010824822 cites W2301154484 @default.
W2010824822 cites W2315123323 @default.
W2010824822 cites W2345460228 @default.
W2010824822 cites W2464006933 @default.
W2010824822 cites W2465254726 @default.
W2010824822 cites W2512219919 @default.
W2010824822 doi "https://doi.org/10.1016/j.jhydrol.2015.01.071" @default.
W2010824822 hasPublicationYear "2015" @default.
W2010824822 type Work @default.
W2010824822 sameAs 2010824822 @default.
W2010824822 citedByCount "124" @default.
W2010824822 countsByYear W20108248222015 @default.