Jiangming Mo
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View article: How urbanization reshapes soil organic carbon stability in urban forests: a critical review
How urbanization reshapes soil organic carbon stability in urban forests: a critical review Open
Urbanization profoundly transforms land use, imposing intense pressures on adjacent forest ecosystems and modifying their capacity to sequester carbon (C). Here, we review how urbanization influences the stability of soil organic carbon (S…
View article: Long-term high nitrogen deposition accelerates the disappearance of the phosphorus-acquiring advantage of leguminous species in a subtropical forest
Long-term high nitrogen deposition accelerates the disappearance of the phosphorus-acquiring advantage of leguminous species in a subtropical forest Open
Leguminous species have an advantage in acquiring phosphorus (P) compared to non-leguminous species. Nonetheless, it remains unclear whether this advantage would diminish under long-term nitrogen (N) deposition. In the seventh year of a si…
View article: Soil Quality Assessment for Sustainable Management: A Minimum Dataset for Long-Term Fertilization in Subtropical Plantations in South China
Soil Quality Assessment for Sustainable Management: A Minimum Dataset for Long-Term Fertilization in Subtropical Plantations in South China Open
Restoration plantations in subtropical regions, often established with fast-growing tree species such as Acacia auriculiformis A. Cunn. ex Benth and Eucalyptus urophylla S. T. Blake, are frequently developed on highly weathered soils chara…
View article: Soil Quality Assessment for Sustainable Management: A Minimum Dataset for Long-Term Fertilization in Subtropical Plantations in South China
Soil Quality Assessment for Sustainable Management: A Minimum Dataset for Long-Term Fertilization in Subtropical Plantations in South China Open
Restoration plantations in subtropical regions, often established with fast-growing tree species like Acacia auriculiformis and Eucalyptus urophylla, are frequently developed on highly weathered soils characterized by natural phosphorus (P…
View article: Separating Biomass Gains and Losses of Planted Forest and Natural Forest and Their Contributions to Forest Biomass Carbon Storage in China for 2005–2020
Separating Biomass Gains and Losses of Planted Forest and Natural Forest and Their Contributions to Forest Biomass Carbon Storage in China for 2005–2020 Open
Quantifying the spatio-temporal dynamics of forest biomass in both natural and planted forests over large areas has proven challenging. Using a remote sensing data-based method, this study presents a novel approach to separate the biomass …
View article: Adsorption/desorption processes dominate the soil P fractions dynamic under long-term N/P addition in a subtropical forest
Adsorption/desorption processes dominate the soil P fractions dynamic under long-term N/P addition in a subtropical forest Open
Despite large phosphorus (P) reserves in subtropical forest soils, P limitation can be exacerbated by elevated atmospheric nitrogen (N) deposition. However, the mechanisms underlying how soil P fraction transformation affects P availabilit…
View article: Compound Flood Risk Assessment of Extreme Rainfall and High River Water Level
Compound Flood Risk Assessment of Extreme Rainfall and High River Water Level Open
Urban flooding is typically caused by multiple factors, with extreme rainfall and rising water levels in receiving bodies both contributing to increased flood risks. This study focuses on assessing urban flood risks in Jinhua City, Zhejian…
View article: Species Composition, Genetic Structure, and Pathogen Prevalence in Tick Populations in Guangxi, China
Species Composition, Genetic Structure, and Pathogen Prevalence in Tick Populations in Guangxi, China Open
Background: Ticks are important vectors for many pathogens affecting humans and animals. This study was aimed at investigating the species composition, genetic diversity, and potential transmission risks of tick-borne pathogens in the Guan…
View article: Effects of 9 years of continuous field phosphorus fertilization on adsorption of dissolved organic matter in tropical forest soil
Effects of 9 years of continuous field phosphorus fertilization on adsorption of dissolved organic matter in tropical forest soil Open
For many years, there has been a prevailing belief that the activity of soil microorganisms in tropical forests is limited by the availability of phosphorus (P). This belief has traditionally found support in experimental research, consist…
View article: Importance of Considering Enzyme Degradation for Interpreting the Response of Soil Enzyme Activity to Nutrient Addition: Insights from a Field and Laboratory Study
Importance of Considering Enzyme Degradation for Interpreting the Response of Soil Enzyme Activity to Nutrient Addition: Insights from a Field and Laboratory Study Open
Soil enzyme activity can be affected by both production and degradation processes, as enzymes can be degraded by proteases. However, the impact of nutrient addition on enzyme activity is often solely attributed to changes in enzyme product…
View article: Eighteen‐year nitrogen addition does not increase plant phosphorus demand in a nitrogen‐saturated tropical forest
Eighteen‐year nitrogen addition does not increase plant phosphorus demand in a nitrogen‐saturated tropical forest Open
Nitrogen (N) deposition usually increases plant tissue N concentrations and thus phosphorus (P) demand in young and/or N‐limited forests, but the N deposition effect on plant P demand has rarely been assessed in N‐saturated forests. Impact…
View article: Importance of Considering Enzyme Degradation for Interpreting the Response of Soil Enzyme Activity to Nutrient Addition: Insights from a Field and Laboratory Study
Importance of Considering Enzyme Degradation for Interpreting the Response of Soil Enzyme Activity to Nutrient Addition: Insights from a Field and Laboratory Study Open
Soil enzyme activity can be affected by both production and degradation, as enzymes can be degraded by proteases. However, the impact of nutrient addition on enzyme activity is often solely attributed to changes in enzyme production withou…
View article: Distinct Responses of Abundant and Rare Soil Bacteria to Nitrogen Addition in Tropical Forest Soils
Distinct Responses of Abundant and Rare Soil Bacteria to Nitrogen Addition in Tropical Forest Soils Open
Atmospheric nitrogen (N) deposition is a worldwide environmental problem and threatens biodiversity and ecosystem functioning. Understanding the responses of community dynamics and assembly processes of abundant and rare soil bacterial tax…
View article: Do long-term high nitrogen inputs change the composition of soil dissolved organic matter in a primary tropical forest?
Do long-term high nitrogen inputs change the composition of soil dissolved organic matter in a primary tropical forest? Open
Dissolved organic matter (DOM) plays a key role in forest carbon biogeochemistry by linking soil organic carbon (SOC) sequestration and water fluxes, which is further shaped by elevated atmospheric nitrogen (N) deposition. Although enhance…
View article: Effects of Excess Nitrogen (N) on Fine Root Growth in Tropical Forests of Contrasting N Status
Effects of Excess Nitrogen (N) on Fine Root Growth in Tropical Forests of Contrasting N Status Open
Elevated nitrogen (N) deposition may further acidify soils in tropical forests. Yet, we have limited evidence on this prediction and it remained unclear how this would affect fine root growth therein. Here, we report responses of fine root…
View article: Changes in vegetation types affect soil microbial communities in tropical islands of southern China
Changes in vegetation types affect soil microbial communities in tropical islands of southern China Open
Soil microbial communities are the key drivers of nutrient cycling in ecosystems. However, the functional response of soil microbial community composition to contrasting vegetation types in tropical coral islands is still unclear. Tropical…
View article: BNF dataset for carbon hypothesis_Mianhai Zheng
BNF dataset for carbon hypothesis_Mianhai Zheng Open
This meta-dataset includes data of N fixation rates and diazotroph (N-fixing microorganism) community structure in response to C and N addition across multiple terrestrial ecosystems, which are compiled from 127 literature sources publishe…
View article: BNF dataset for carbon hypothesis.xls
BNF dataset for carbon hypothesis.xls Open
This meta-dataset includes data of N fixation rates and diazotroph (N-fixing microorganism) community structure in response to C and N addition across multiple terrestrial ecosystems, which are compiled from 127 literature sources publishe…
View article: Dataset_Mianhai_Zheng_et_al._NG_2022
Dataset_Mianhai_Zheng_et_al._NG_2022 Open
This dataset includes information of soil CO2 fluxes, soil temperature, and soil moisture in the control and N-addition plots of Dinghushan forests. It also includes information of soil respiration in 62 forest sites from published literat…
View article: BNF dataset for carbon hypothesis.xls
BNF dataset for carbon hypothesis.xls Open
This meta-dataset includes data of N fixation rates and diazotroph (N-fixing microorganism) community structure in response to C and N addition across multiple terrestrial ecosystems, which are compiled from 127 literature sources publishe…
View article: Long-term nitrogen deposition does not exacerbate soil acidification in tropical broadleaf plantations
Long-term nitrogen deposition does not exacerbate soil acidification in tropical broadleaf plantations Open
Nitrogen (N) deposition induces soil acidification in natural forests; however, whether it increases soil acidity in tropical plantations with simple tree structures compared with natural forests remains unclear. This study aimed to invest…
View article: Ratios of phosphatase activity to activities of carbon and nitrogen-acquiring enzymes in throughfall were larger in tropical forests than a temperate forest
Ratios of phosphatase activity to activities of carbon and nitrogen-acquiring enzymes in throughfall were larger in tropical forests than a temperate forest Open
Tropical forests are considered as phosphorus (P)-poor ecosystems, where microorganisms are suggested to allocate more resources to P acquisition compared to carbon (C) and/or nitrogen (N) acquisition. Therefore, ratios of activities of ac…
View article: Adaptation of Soil Fungal Community Structure and Assembly to Long- Versus Short-Term Nitrogen Addition in a Tropical Forest
Adaptation of Soil Fungal Community Structure and Assembly to Long- Versus Short-Term Nitrogen Addition in a Tropical Forest Open
Soil fungi play critical roles in ecosystem processes and are sensitive to global changes. Elevated atmospheric nitrogen (N) deposition has been well documented to impact on fungal diversity and community composition, but how the fungal co…
View article: Effect of Long-Term Nitrogen and Phosphorus Additions on Understory Plant Nutrients in a Primary Tropical Forest
Effect of Long-Term Nitrogen and Phosphorus Additions on Understory Plant Nutrients in a Primary Tropical Forest Open
Humid tropical forests are commonly characterized as N-rich but P-deficient. Increased N deposition may drive N saturation and aggravate P limitation in tropical forests. Thus, P addition is proposed to mitigate the negative effects of N d…
View article: Long-Term Nitrogen Addition Decreases Soil Carbon Mineralization in an N-Rich Primary Tropical Forest
Long-Term Nitrogen Addition Decreases Soil Carbon Mineralization in an N-Rich Primary Tropical Forest Open
Anthropogenic elevated nitrogen (N) deposition has an accelerated terrestrial N cycle, shaping soil carbon dynamics and storage through altering soil organic carbon mineralization processes. However, it remains unclear how long-term high N…
View article: Nitrogen deposition accelerates soil carbon sequestration in tropical forests
Nitrogen deposition accelerates soil carbon sequestration in tropical forests Open
Significance Forest soil carbon (C) storage plays a central role in sequestrating atmospheric CO 2 on timescales from centuries to millennia. However, our current understanding of soil C sequestration in response to N deposition mainly foc…
View article: Does the ratio of β-1,4-glucosidase (BG) to β-1,4-N-acetylglucosaminidase (NAG) indicate the relative resource allocation of soil microbes to C and N acquisition?
Does the ratio of β-1,4-glucosidase (BG) to β-1,4-N-acetylglucosaminidase (NAG) indicate the relative resource allocation of soil microbes to C and N acquisition? Open
The ratio of β-1,4-glucosidase (BG) to β-1,4-N-acetylglucosaminidase (NAG) activity (BG:NAG ratio) is often used as an indicator of the relative resource allocation of soil microbes to C acquisition compared with N. An increasing number of…
View article: Data_Mao et al. GCB.xlsx
Data_Mao et al. GCB.xlsx Open
Dataset of the article titled "Unexpected high retention of 15N-labeled nitrogen in a tropical legume forest under long-term nitrogen enrichment", with information of TDN, N leaching rates, 15N recovery, N pools, and N concentrations of di…
View article: Dataset_Mao et al..xls
Dataset_Mao et al..xls Open
Dataset of the article titled "Responses of foliar nutrient status and stoichiometry to nitrogen addition in different ecosystems: a meta-analysis", with information of study references, means and SD and n (for element concentration), effe…