SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3194015547> ?p ?o ?g. }

Showing items 1 to 100 of ±174 with 100 items per page.

W3194015547 endingPage "104225" @default.
W3194015547 startingPage "104225" @default.
W3194015547 abstract "Understanding and early identification of state transitions in dryland systems’ landscape pattern are challenging but critical for conservation planning and sustainable management strategies. Currently the alternative states of drylands have been identified based on dynamics of single vegetation index (i.e., normalized difference vegetation index), with the interactions between vegetation and soil components often being neglected. Here, we proposed a framework for identifying the alternative states in relation to land degradation based on the interactive pathways of fractional vegetation and soil-related endmember nexuses. In this framework, we initially generated 16-day fractional green vegetation endmember (green vegetation [GV]) and soil-related endmembers (sand [SL], saline [SA], dark surface [DA]) time series using a standardized linear spectral mixture analysis model in the Hexi Corridor during 2001–2017. A discrete wavelet transform based trends and turning points detection (DWT-TTD) algorithm was proposed to detect trends, turning point types, and timing of these time series records. These metrics were subsequently used to identify eight state transition pathways for each endmember and synthetic degradation processes at the appropriate 5–10 year scale. We found that the unmixed fractional endmembers exhibited a consistent agreement with both field abundance values and estimated fractions from high-spatial-resolution Google Earth images. Based on the DWT-TTD algorithm derived alternative pathways, we found that four positive pathways of GV and DA fractions can be observed in the vegetated areas were integrated with corresponding negative pathways of SA and SL fractions. These pathways resulted in remarkably increasing GV (+4551.81 km2) and DA (+9749.26 km2) and significantly declining SA (−1452.70 km2) and SL (−9555.57 km2) from 2001 to 2017. These processes were linked to increased precipitation and temperature and reduced drought degree. Also, the timing of the turning points (around 2007 and 2013) was largely coincidental with the timing of ecological management, suggesting that ecological governance played a crucial role in the state shifts. However, because of drought trends in the barren regions, land desertification exhibited an increasing occurrence in extent (+2.5% of total pixels) during the study period, which may increase in the future, as indicated by the large pixel proportion of initially positive reversal pathway for SL (9.31%). Compared to state-of-the-art approaches, the DWT-TTD algorithm, as a multi-resolution analysis method, has the potential to detect hierarchical temporal changes and disentangle the cross-scale inherent shifts of vegetation-soil systems. The framework can help devise sustainable management practices that maintain land degradation neutrality, especially when integrated with land use cover change analysis." @default.
W3194015547 created "2021-08-30" @default.
W3194015547 creator A5005066177 @default.
W3194015547 creator A5005565296 @default.
W3194015547 creator A5031900556 @default.
W3194015547 creator A5055151897 @default.
W3194015547 creator A5057812778 @default.
W3194015547 creator A5065033246 @default.
W3194015547 date "2021-11-01" @default.
W3194015547 modified "2023-10-16" @default.
W3194015547 title "Identifying and understanding alternative states of dryland landscape: A hierarchical analysis of time series of fractional vegetation-soil nexuses in China’s Hexi Corridor" @default.
W3194015547 cites W1520280252 @default.
W3194015547 cites W1537844550 @default.
W3194015547 cites W1844167064 @default.
W3194015547 cites W1964217023 @default.
W3194015547 cites W1965347260 @default.
W3194015547 cites W1966798775 @default.
W3194015547 cites W1970121948 @default.
W3194015547 cites W1970243482 @default.
W3194015547 cites W1970585262 @default.
W3194015547 cites W1972293418 @default.
W3194015547 cites W1974047452 @default.
W3194015547 cites W1980863087 @default.
W3194015547 cites W1999166341 @default.
W3194015547 cites W1999900880 @default.
W3194015547 cites W2003046814 @default.
W3194015547 cites W2003197019 @default.
W3194015547 cites W2015728456 @default.
W3194015547 cites W2016435228 @default.
W3194015547 cites W2016907874 @default.
W3194015547 cites W2019652370 @default.
W3194015547 cites W2023028057 @default.
W3194015547 cites W2024006116 @default.
W3194015547 cites W2025761833 @default.
W3194015547 cites W2038353908 @default.
W3194015547 cites W2046174855 @default.
W3194015547 cites W2051057534 @default.
W3194015547 cites W2053621950 @default.
W3194015547 cites W2063929829 @default.
W3194015547 cites W2067985435 @default.
W3194015547 cites W2069991104 @default.
W3194015547 cites W2072352253 @default.
W3194015547 cites W2074685373 @default.
W3194015547 cites W2078906297 @default.
W3194015547 cites W2087683803 @default.
W3194015547 cites W2091804612 @default.
W3194015547 cites W2092141993 @default.
W3194015547 cites W2096974640 @default.
W3194015547 cites W2097054682 @default.
W3194015547 cites W2098281478 @default.
W3194015547 cites W2101173516 @default.
W3194015547 cites W2109606373 @default.
W3194015547 cites W2110456190 @default.
W3194015547 cites W2110637553 @default.
W3194015547 cites W2112195264 @default.
W3194015547 cites W2114527611 @default.
W3194015547 cites W2114828048 @default.
W3194015547 cites W2115241128 @default.
W3194015547 cites W2115654191 @default.
W3194015547 cites W2117490284 @default.
W3194015547 cites W2117996123 @default.
W3194015547 cites W2126822288 @default.
W3194015547 cites W2127062304 @default.
W3194015547 cites W2132984323 @default.
W3194015547 cites W2134715284 @default.
W3194015547 cites W2136253503 @default.
W3194015547 cites W2138034024 @default.
W3194015547 cites W2138448722 @default.
W3194015547 cites W2140908571 @default.
W3194015547 cites W2142289369 @default.
W3194015547 cites W2146073476 @default.
W3194015547 cites W2151454884 @default.
W3194015547 cites W2161336494 @default.
W3194015547 cites W2164948246 @default.
W3194015547 cites W2168175751 @default.
W3194015547 cites W2170759554 @default.
W3194015547 cites W2203571362 @default.
W3194015547 cites W2237880282 @default.
W3194015547 cites W2318680928 @default.
W3194015547 cites W2338453289 @default.
W3194015547 cites W2531944626 @default.
W3194015547 cites W2568228343 @default.
W3194015547 cites W2569045473 @default.
W3194015547 cites W2617692826 @default.
W3194015547 cites W2620137446 @default.
W3194015547 cites W2736190909 @default.
W3194015547 cites W2763699613 @default.
W3194015547 cites W2763833521 @default.
W3194015547 cites W2765368320 @default.
W3194015547 cites W2794918600 @default.
W3194015547 cites W2800485765 @default.
W3194015547 cites W2803389660 @default.
W3194015547 cites W2846270401 @default.
W3194015547 cites W2885696803 @default.
W3194015547 cites W2886059095 @default.
W3194015547 cites W2886714674 @default.
W3194015547 cites W2912077313 @default.
W3194015547 cites W2955953739 @default.