SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3135536797> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W3135536797 endingPage "105270" @default.
W3135536797 startingPage "105270" @default.
W3135536797 abstract "Mangroves are among the most important carbon reservoirs for atmospheric CO2. Nonetheless, how the biomass and sediment organic carbon (SOC) of mangrove forests are affected by marine pollution, in addition to climate and tidal range, on a regional scale is unknown. This study aimed to assess how spatial patterns of biomass and SOC could be influenced by the climate, tidal range, and marine pollution in China’s mangrove forests. The result showed that aboveground biomass (AGB), surface SOC content (SOCC), and SOC density (SOCD) showed clear latitudinal change patterns on a regional scale and decreased in a non-linear manner with increasing latitude. Correlation analysis and principal component analysis (PCA) indicated that latitudinal variation in AGB, SOCC, and SOCD was mainly regulated by temperature-related indicators. However, AGB, SOCC, and SOCD were not found to be correlated to annual precipitation. Besides, the tidal range was found to be negatively correlated to biomass and SOC content/stock. Tidal range is one important abiotic predictor used to understand the latitudinal patterns of mangrove biomass and SOC dynamics. Correlation analysis and PCA revealed that mangrove biomass and SOC content/stock were negatively affected by heavy metal pollution, and they were disproportionately negatively correlated to marine heavy metal concentrations in the coastlines neighboring mangrove forests. Environmentally-sound technology should be adapted to prevent, control, and remediate heavy metal pollution to increase carbon storage in China’s mangrove forests. Mangrove biomass and SOC content/stock were also found to be negatively related to the suspended solid concentration in the coastlines neighboring mangrove forests. In contrast, vegetation biomass was found to be positively correlated to ammonia nitrogen content. However, biomass was found to be not correlated to nitrate-nitrogen, nitrites-nitrogen, inorganic forms of nitrogen, and non-ionic ammonia. Additional studies are needed to confirm the mechanisms by which different forms of nitrogen enrichment affect biomass storage." @default.
W3135536797 created "2021-03-15" @default.
W3135536797 creator A5019954025 @default.
W3135536797 creator A5023479665 @default.
W3135536797 creator A5030392551 @default.
W3135536797 creator A5076409244 @default.
W3135536797 creator A5086552387 @default.
W3135536797 date "2021-07-01" @default.
W3135536797 modified "2023-10-18" @default.
W3135536797 title "Effects of marine pollution, climate, and tidal range on biomass and sediment organic carbon in Chinese mangrove forests" @default.
W3135536797 cites W14250876 @default.
W3135536797 cites W1492329436 @default.
W3135536797 cites W1959945186 @default.
W3135536797 cites W1972851028 @default.
W3135536797 cites W1975706531 @default.
W3135536797 cites W1987682253 @default.
W3135536797 cites W1990450787 @default.
W3135536797 cites W1992524936 @default.
W3135536797 cites W1996585409 @default.
W3135536797 cites W1999325776 @default.
W3135536797 cites W2006880805 @default.
W3135536797 cites W2013600292 @default.
W3135536797 cites W2023776914 @default.
W3135536797 cites W2024756220 @default.
W3135536797 cites W2028146794 @default.
W3135536797 cites W2031355134 @default.
W3135536797 cites W2036477620 @default.
W3135536797 cites W2040698592 @default.
W3135536797 cites W2043566824 @default.
W3135536797 cites W2045187980 @default.
W3135536797 cites W2048427829 @default.
W3135536797 cites W2051849210 @default.
W3135536797 cites W2060680309 @default.
W3135536797 cites W2061999641 @default.
W3135536797 cites W2074903567 @default.
W3135536797 cites W2093540905 @default.
W3135536797 cites W2096734594 @default.
W3135536797 cites W2098998407 @default.
W3135536797 cites W2102408717 @default.
W3135536797 cites W2110484029 @default.
W3135536797 cites W2116473628 @default.
W3135536797 cites W2117879077 @default.
W3135536797 cites W2122825721 @default.
W3135536797 cites W2130426665 @default.
W3135536797 cites W2130774518 @default.
W3135536797 cites W2133554448 @default.
W3135536797 cites W2148831771 @default.
W3135536797 cites W2150344721 @default.
W3135536797 cites W2160615957 @default.
W3135536797 cites W2166141527 @default.
W3135536797 cites W2166394891 @default.
W3135536797 cites W2167419903 @default.
W3135536797 cites W2168813394 @default.
W3135536797 cites W2177862160 @default.
W3135536797 cites W2180734509 @default.
W3135536797 cites W2217816999 @default.
W3135536797 cites W2238226927 @default.
W3135536797 cites W2468539296 @default.
W3135536797 cites W2528830366 @default.
W3135536797 cites W2545112244 @default.
W3135536797 cites W2565401133 @default.
W3135536797 cites W2568118865 @default.
W3135536797 cites W2612986619 @default.
W3135536797 cites W2671790725 @default.
W3135536797 cites W2789772880 @default.
W3135536797 cites W2794180113 @default.
W3135536797 cites W2796597967 @default.
W3135536797 cites W2802570838 @default.
W3135536797 cites W2802912759 @default.
W3135536797 cites W2803038300 @default.
W3135536797 cites W2805625988 @default.
W3135536797 cites W2806264462 @default.
W3135536797 cites W2807041941 @default.
W3135536797 cites W2883511530 @default.
W3135536797 cites W2883878336 @default.
W3135536797 cites W2897877968 @default.
W3135536797 cites W2901118055 @default.
W3135536797 cites W2913801139 @default.
W3135536797 cites W2934980104 @default.
W3135536797 cites W2944226359 @default.
W3135536797 cites W2946512684 @default.
W3135536797 cites W2946741988 @default.
W3135536797 cites W2951352997 @default.
W3135536797 cites W2966124377 @default.
W3135536797 cites W2972472084 @default.
W3135536797 cites W2972491044 @default.
W3135536797 cites W2977063154 @default.
W3135536797 doi "https://doi.org/10.1016/j.catena.2021.105270" @default.
W3135536797 hasPublicationYear "2021" @default.
W3135536797 type Work @default.
W3135536797 sameAs 3135536797 @default.
W3135536797 citedByCount "10" @default.
W3135536797 countsByYear W31355367972022 @default.
W3135536797 countsByYear W31355367972023 @default.
W3135536797 crossrefType "journal-article" @default.
W3135536797 hasAuthorship W3135536797A5019954025 @default.
W3135536797 hasAuthorship W3135536797A5023479665 @default.
W3135536797 hasAuthorship W3135536797A5030392551 @default.