Effects of Litter Input on Soil Enzyme Activities and Their Stoichiometric Ratios in Sandy Soil
Litter serves as a crucial source of soil nutrients in sandy land ecosystems. Soil enzyme activities and their stoichiometric ratios act as essential “bridges” linking microbial metabolism with nutrient cycling, thereby reflecting the availability of soil nutrients and the sensitivity to microbial s...
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2025-05-01
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| author | Haiyan Gao Shengnan Zhang Zhiguo Yang Hongbin Xu Haiguang Huang Chunying Wang Lei Zhang |
| author_facet | Haiyan Gao Shengnan Zhang Zhiguo Yang Hongbin Xu Haiguang Huang Chunying Wang Lei Zhang |
| author_sort | Haiyan Gao |
| collection | DOAJ |
| description | Litter serves as a crucial source of soil nutrients in sandy land ecosystems. Soil enzyme activities and their stoichiometric ratios act as essential “bridges” linking microbial metabolism with nutrient cycling, thereby reflecting the availability of soil nutrients and the sensitivity to microbial substrate limitations. To investigate the effects of litter quality changes on soil nutrients, enzyme activities, and stoichiometric ratios in sandy land, leaf litter and surface soil were collected from four sand-fixing forests in the Mu Us Sandy Land, including YC (<i>Corethrodendron fruticosum</i>), NT (<i>Caragana korshinskii</i>), ZSH (<i>Amorpha fruticose</i>), and SL (<i>Salix cheilophila</i>). These samples were then used for indoor cultivation. Experiments with these four leaf litter types were carried out; one treatment with no litter added served as the control. Our aim was to systematically study the changing characteristics of enzyme activities related to soil carbon, nitrogen, and phosphorus with different litter inputs. The results indicate the following: (1) Compared to the control treatment with no litter added (CK), the addition of all four types of litter significantly increased soil organic carbon, total nitrogen, and alkaline nitrogen contents. The addition of NT and YC litter significantly increased dissolved organic carbon, microbial biomass carbon (MBC), and microbial biomass nitrogen (MBN). (2) The addition of the four types of litter had different effects on the soil enzyme activity, showing increasing trends overall. A chemical analysis of the enzyme activity revealed that the soil was limited in nitrogen and phosphorus. After the addition of the ZSH, NT, and YC litter, the enzymatic C/P acquisition ratio (<i>E</i><sub>C/P</sub>) and enzymatic N/P acquisition ratio (<i>E</i><sub>N/P</sub>) decreased significantly, alleviating the limitation of phosphorus. After the addition of the NT litter, the enzymatic C/N acquisition ratio (<i>E</i><sub>C/N</sub>) increased significantly, alleviating the limitation of soil nitrogen. (3) A correlation analysis showed that the soil nutrients had varying degrees of correlation with enzyme activity and their stoichiometric ratio. The redundancy analysis results show that MBN, TN, MBC/MBN, organic carbon, and available nitrogen were key factors influencing soil enzyme activity and stoichiometric ratios. These results provide a reference for nutrient cycling during sandy soil restoration, and they provide essential data support for the development of fragile ecosystem models in the context of global change. |
| format | Article |
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| spelling | doaj-art-0c3d2edba4514a72ad64ea991033619c2025-08-20T01:57:04ZengMDPI AGAgronomy2073-43952025-05-01155115210.3390/agronomy15051152Effects of Litter Input on Soil Enzyme Activities and Their Stoichiometric Ratios in Sandy SoilHaiyan Gao0Shengnan Zhang1Zhiguo Yang2Hongbin Xu3Haiguang Huang4Chunying Wang5Lei Zhang6Inner Mongolia Academy of Forestry Sciences, Hohhot 010010, ChinaInner Mongolia Academy of Forestry Sciences, Hohhot 010010, ChinaInner Mongolia Academy of Forestry Sciences, Hohhot 010010, ChinaInner Mongolia Academy of Forestry Sciences, Hohhot 010010, ChinaInner Mongolia Academy of Forestry Sciences, Hohhot 010010, ChinaInner Mongolia Academy of Forestry Sciences, Hohhot 010010, ChinaInner Mongolia Academy of Forestry Sciences, Hohhot 010010, ChinaLitter serves as a crucial source of soil nutrients in sandy land ecosystems. Soil enzyme activities and their stoichiometric ratios act as essential “bridges” linking microbial metabolism with nutrient cycling, thereby reflecting the availability of soil nutrients and the sensitivity to microbial substrate limitations. To investigate the effects of litter quality changes on soil nutrients, enzyme activities, and stoichiometric ratios in sandy land, leaf litter and surface soil were collected from four sand-fixing forests in the Mu Us Sandy Land, including YC (<i>Corethrodendron fruticosum</i>), NT (<i>Caragana korshinskii</i>), ZSH (<i>Amorpha fruticose</i>), and SL (<i>Salix cheilophila</i>). These samples were then used for indoor cultivation. Experiments with these four leaf litter types were carried out; one treatment with no litter added served as the control. Our aim was to systematically study the changing characteristics of enzyme activities related to soil carbon, nitrogen, and phosphorus with different litter inputs. The results indicate the following: (1) Compared to the control treatment with no litter added (CK), the addition of all four types of litter significantly increased soil organic carbon, total nitrogen, and alkaline nitrogen contents. The addition of NT and YC litter significantly increased dissolved organic carbon, microbial biomass carbon (MBC), and microbial biomass nitrogen (MBN). (2) The addition of the four types of litter had different effects on the soil enzyme activity, showing increasing trends overall. A chemical analysis of the enzyme activity revealed that the soil was limited in nitrogen and phosphorus. After the addition of the ZSH, NT, and YC litter, the enzymatic C/P acquisition ratio (<i>E</i><sub>C/P</sub>) and enzymatic N/P acquisition ratio (<i>E</i><sub>N/P</sub>) decreased significantly, alleviating the limitation of phosphorus. After the addition of the NT litter, the enzymatic C/N acquisition ratio (<i>E</i><sub>C/N</sub>) increased significantly, alleviating the limitation of soil nitrogen. (3) A correlation analysis showed that the soil nutrients had varying degrees of correlation with enzyme activity and their stoichiometric ratio. The redundancy analysis results show that MBN, TN, MBC/MBN, organic carbon, and available nitrogen were key factors influencing soil enzyme activity and stoichiometric ratios. These results provide a reference for nutrient cycling during sandy soil restoration, and they provide essential data support for the development of fragile ecosystem models in the context of global change.https://www.mdpi.com/2073-4395/15/5/1152litter inputenzyme activityecoenzymatic stoichiometrysoil nutrients |
| spellingShingle | Haiyan Gao Shengnan Zhang Zhiguo Yang Hongbin Xu Haiguang Huang Chunying Wang Lei Zhang Effects of Litter Input on Soil Enzyme Activities and Their Stoichiometric Ratios in Sandy Soil Agronomy litter input enzyme activity ecoenzymatic stoichiometry soil nutrients |
| title | Effects of Litter Input on Soil Enzyme Activities and Their Stoichiometric Ratios in Sandy Soil |
| title_full | Effects of Litter Input on Soil Enzyme Activities and Their Stoichiometric Ratios in Sandy Soil |
| title_fullStr | Effects of Litter Input on Soil Enzyme Activities and Their Stoichiometric Ratios in Sandy Soil |
| title_full_unstemmed | Effects of Litter Input on Soil Enzyme Activities and Their Stoichiometric Ratios in Sandy Soil |
| title_short | Effects of Litter Input on Soil Enzyme Activities and Their Stoichiometric Ratios in Sandy Soil |
| title_sort | effects of litter input on soil enzyme activities and their stoichiometric ratios in sandy soil |
| topic | litter input enzyme activity ecoenzymatic stoichiometry soil nutrients |
| url | https://www.mdpi.com/2073-4395/15/5/1152 |
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