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C, N, and P stoichiometry for leaf litter of 62 woody species in a subtropical evergreen broadleaved forest LI Aogui, CAI Shifeng, LUO Suzhen, WANG Xiaohong, CAO Lirong, WANG Xue, LIN Chengfang, CHEN Guangshui Chinese Journal of Applied Ecology    2023, 34 (5): 1153-1160.   DOI: 10.13287/j.1001-9332.202305.005 Abstract （634）      PDF（pc） （2137KB）（784）       Knowledge map    Save To understand leaf litter stoichiometry in a subtropical evergreen broadleaved forest, we measured the contents of carbon (C), nitrogen (N) and phosphorus (P) in leaf litters of 62 main woody species in a natural forest of C. kawakamii Nature Reserve in Sanming, Fujian Province. Differences in leaf litter stoichiometry were analyzed across leaf forms (evergreen, deciduous), life forms (tree, semi-tree or shrub), and main families. Additionally, the phylogenetic signal was measured by Blomberg's K to explore the correlation between family level differentiation time and litter stoichiometry. Our results showed that the contents of C, N and P in the litter of 62 woody species were 405.97-512.16, 4.45-27.11, and 0.21-2.53 g·kg-1, respectively. C/N, C/P and N/P were 18.6-106.2, 195.9-2146.8, and 3.5-68.9, respectively. Leaf litter P content of evergreen tree species was significantly lower than that of deciduous tree species, and C/P and N/P of evergreen tree species were significantly higher than those of deciduous tree species. There was no significant difference in C, N content and C/N between the two leaf forms. There was no significant difference in litter stoichiometry among trees, semi-trees and shrubs. Effects of phylogeny on C, N content and C/N in leaf litter was significant, but not on P content, C/P and N/P. Family differentiation time was negatively correlated with leaf litter N content, and positively correlated with C/N. Leaf litter of Fagaceae had high C and N contents, C/P and N/P, and low P content and C/N, with an opposite trend for Sapidaceae. Our findings indicated that litter in subtropical forest had high C, N content and N/P, but low P content, C/N, and C/P, compared with the global scale average value. Litter of tree species in older sequence of evolutionary development had lower N content but higher C/N. There was no difference of leaf litter stoichiometry among life forms. There were significant differences in P content, C/P, and N/P between different leaf forms, with a characteristic of convergence. Reference | Related Articles | Metrics | Comments（0）

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Advances in the research of transformation and stabilization of soil organic carbon from plant and microbe YANG Yang, WANG Baorong, DOU Yanxing, XUE Zhijing, SUN Hui, WANG Yunqiang, LIANG Chao, AN Shaoshan Chinese Journal of Applied Ecology    2024, 35 (1): 111-123.   DOI: 10.13287/j.1001-9332.202401.011 Abstract （1393）      PDF（pc） （2449KB）（760）       Knowledge map    Save Soil organic carbon (SOC) is the core component of terrestrial carbon (C) sink. Exploring the transformation and stabilization mechanism of SOC is key to understand the function of terrestrial C sink which copes with climate change. The traditional perspective is that plant residues are the initial source of SOC. The new concept of “soil microbial C pump” emphasizes that the synthesized products of soil microbial assimilation are important contributors to the stable SOC. This provides a new insight to the sequestration mechanism of SOC. Due to the complex and variable decomposition process of plant residues and the high heterogeneity of microbial residues, the transformation and stabilization mechanism of plant residues and microbial residues into SOC is still unclear. We reviewed research progress in plant and microbial residues, and introduced the characterization methods of quantification and transformation of plant residues and microbial residues, and also summarized the new findings on the transformation of plant and microbial residues into SOC. We further discussed the contribution and driving factors of microbial and plant-derived C to SOC. Finally, we prospected the future development direction and research focus in this field. This review would provide the scientific reference for the research of soil C sequestration in terrestrial ecosystem. Reference | Related Articles | Metrics | Comments（0）

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Soil microbial carbon pump conceptual framework 2.0 ZHU Xuefeng, KONG Weidong, HUANG Yimei, XIAO Keqing, LUO Yu, AN Shaoshan, LIANG Chao Chinese Journal of Applied Ecology    2024, 35 (1): 102-110.   DOI: 10.13287/j.1001-9332.202401.018 Abstract （870）      PDF（pc） （892KB）（480）       Knowledge map    Save Microorganisms are essential actors in the biogeochemical cycling of elements within terrestrial ecosystems, with significant influences on soil health, food security, and global climate change. The contribution of microbial anabolism-induced organic compounds is a non-negligible factor in the processes associated with soil carbon (C) storage and organic matter preservation. In recent years, the conceptual framework of soil microbial carbon pump (MCP), with a focus on microbial metabolism and necromass generation process, has gained widespread attention. It primarily describes the processes of soil organic C formation and stabilization driven by the metabolic activities of soil heterotrophic microorganisms, representing an important mechanism and a focal point in current research on terrestrial C sequestration. Here, we reviewed the progress in this field and introduced the soil MCP conceptual framework 2.0, which expands upon the existing MCP model by incorporating autotrophic microbial pathway for C sequestration and integrating the concept of soil mineral C pump. These advancements aimed to enrich and refine our understanding of microbial-mediated terrestrial ecosystem C cycling and sequestration mechanisms. This refined framework would provide theoretical support for achieving China's “dual carbon” goals. Reference | Related Articles | Metrics | Comments（0）

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Altitudinal variations and seasonal dynamics of near-surface and soil temperatures in subtropical forests of Mt. Guanshan, Jiangxi Province, China WANG Fang, LU Yaoshun, ZHANG Zhaochen, CHEN Lin, YANG Yongchuan, ZHANG Hongwei, WANG Xiaoran, SHU Li, SHANG Xiaofan, LIU Pengcheng, YANG Qingpei, ZHANG Jian Chinese Journal of Applied Ecology    2023, 34 (5): 1161-1168.   DOI: 10.13287/j.1001-9332.202305.019 Abstract （398）      PDF（pc） （2233KB）（438）       Knowledge map    Save Temperature lapse rate (TLR), measured as the degree of temperature change along an altitudinal gradient, is a key indicator of multiple ecological processes of mountain systems. Although many studies have examined temperature changes of open air or near-surface along altitudes, we know little about altitudinal variations of soil temperature, which play an important role in regulating growth and reproduction of organisms, as well as ecosystem nutrient cycling. Based on temperature data of near-surface (15 cm above ground) and soil layers (8 cm below ground) from 12 sampling sites of subtropical forest along an altitudinal gradient (300-1300 m) in Jiangxi Guan-shan National Nature Reserve from September 2018 to August 2021, we calculated the lapse rates of mean, maximum, and minimum temperatures, as well as accumulated temperatures by using simple linear regression for both near-surface and soil temperature. The seasonal dynamics of aforementioned variables were also evaluated. The results showed that there were large differences among mean, maximum, and minimum lapse rates for annual near-surface temperature, which were 0.38, 0.31 and 0.51 ℃·(100 m)-1, respectively. But little variation was documented for soil temperature which were 0.40, 0.38 and 0.42 ℃·(100 m)-1, respectively. The seasonal variations of temperature lapse rates for near-surface and soil layers were minor except for minimum temperature. The lapse rates of minimum temperature were deeper in spring and winter for near-surface and in spring and autumn for soil layers. For growing degree days (GDD), the accumulated temperature under both layers were negatively correlated with altitude, and the lapse rates of ≥5 ℃ were 163 ℃·d·(100 m)-1 for near-surface and 179 ℃·d·(100 m)-1 for soil. The ≥5 ℃ GDD in soil were about 15 days longer than that in near-surface at the same altitude. The results showed inconsistent patterns of altitudinal variations between near-surface and soil temperature. Soil temperature and its lapse rates had minor seasonal variations compared with the near-surface counterparts, which was related to the strong buffering capacity of soil. Reference | Related Articles | Metrics | Comments（0）

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Spatio-temporal distribution and overlap of Naemorhedus griseus and Capricornis milneedwardsii in Gongga Mountain, Sichuan, China LIU Wei, LI Xuqin, LI Zhonglun, LI Ying, YOU Zhiyuan, JIANG Yong, RUAN Guanghua, LU Bigeng, YANG Nan Chinese Journal of Applied Ecology    2023, 34 (6): 1630-1638.   DOI: 10.13287/j.1001-9332.202306.031 Abstract （276）      PDF（pc） （2058KB）（392）       Knowledge map    Save Clarifying the distribution pattern and overlapping relationship of sympatric relative species in the spatio-temporal niche is important for our understanding of the behavioral relationship between species and the integrated management of multi-species habitats. Based on the infrared camera monitoring data from 2012 to 2021, we investigted the spatio-temporal distribution characteristics of the national secondary-class key protected animals Naemorhedus griseus and Capricornis milneedwardsii in the Gongga Mountain National Nature Reserve, Sichuan Province. We analyzed the distribution of N. griseuss and C. milneedwardsiis in the reserve using the MaxEnt model, based on 72 and 108 occurrence data of the two species, respectively, obtained by infrared cameras from 2016 to 2021, combined with 12 environmental factors potentially affecting their spatial distribution. Then, based on 1312 occurrence data of N. griseus and 1889 occurrence data of C. milneedwardsii collected by infrared camera from 2012 to 2021, we estimated their daily activity rhythms by using the kernel density estimation to understand the distribution pattern and overlap of the two species in the temporal niche. The results showed that the area of suitable habitats for N. griseus and C. milneedwardsii was 731.95 km2 and 1220.46 km2, respectively. The overlapping area was 697.17 km2. The main environmental factors had similar effects on the habitat selection of the two species. The daily activity of both species peaked in the early morning and evening. The utilization of the interval and intensity of the morning and evening time periods were different for the two species. The morning and evening activity peaks of C. milneedwardsii were earlier and later, respectively, than that of N. griseus. C. milneedwardsii had a higher utilization intensity during the nocturnal period. In general, high degree of spatial overlap and low degree of overlap in the temporal niche dimension contribute to the long-term coexistence of the two species. Reference | Related Articles | Metrics | Comments（0）

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Chinese Journal of Applied Ecology    2023, 34 (5): 0-0.   Abstract （226）      PDF（pc） （16403KB）（365）       Knowledge map    Save Related Articles | Metrics | Comments（0）

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Radial growth responses of three coniferous species to climate change on the southern slope of Funiu Mountains, China LI Zhenjiang, YU Chenyi, LIU Shengyun, YAN Ruihuan, HUANG Xindeng, LIU Xiaojing, CHEN Zhicheng, WANG Ting Chinese Journal of Applied Ecology    2023, 34 (5): 1178-1186.   DOI: 10.13287/j.1001-9332.202305.004 Abstract （306）      PDF（pc） （3021KB）（358）       Knowledge map    Save Funiu Mountains are located in a transition region between warm temperate zone and northern subtropical region, where a variety of plant species are distributed with sensitive response to climate change. Their response characteristics to climate change are still unclear. We developed the basal area increment (BAI) index chronologies of Pinus tabuliformis, P. armandii, and P. massoniana in the Funiu Mountains to examine their growth trend and their sensitivity to climatic change. The results showed that the BAI chronologies gave a clue that the three conife-rous species had similar radial growth rate. The large Gleichlufigkeit (GLK) indices among the three BAI chronologies also indicated that the three species had a similar growth trend. Results of correlation analysis showed that the three species also had similar response to climatic change to a certain extent. Radial growth of all the three species was significantly positively correlated with the total monthly precipitation in December of previous year and June of the current year, but negatively correlated with the precipitation in September and the mean monthly temperature in June of the current year. There were some differences in the responses of the three coniferous to climate change. P. massoniana had a significant negative correlation with the mean temperature in March, and a significant positive correlation with the precipitation in March, while P. armandii and P. massoniana were affected negatively by the maximum temperature in August. Results of the moving correlation analysis showed that the three coniferous species had some similar sensitivity to climate change. Their positive responses to precipitation in previous December consistently increased, as well as the negative correlation with precipitation in current September. As to P. masso-niana, they had a relatively stronger climatic sensitivity and higher stability than the other two species. It would be more suitable for P. massoniana trees on the southern slope of the Funiu Mountains under global warming. Reference | Related Articles | Metrics | Comments（0）

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Spatial and temporal trends and drivers of fractional vegetation cover in Heilongjiang Province, China during 1990-2020 ZHAO Nan, ZHAO Yinghui, ZOU Haifeng, Bai Xiaohong, ZHEN Zhen Chinese Journal of Applied Ecology    2023, 34 (5): 1320-1330.   DOI: 10.13287/j.1001-9332.202305.021 Abstract （341）      PDF（pc） （3648KB）（355）       Knowledge map    Save Fractional vegetation cover (FVC) is a quantitative indicator for vegetation growth conditions and ecosystem change. Clarifying the spatial and temporal trends and driving factors of FVC is an important research content of global and regional ecological environment. Based on Google Earth Engine (GEE) cloud computing platform, we estimated FVC in Heilongjiang Province from 1990 to 2020 using the pixel dichotomous model. We analyzed the temporal and spatial trends and drivers of FVC using Mann-Kendall mutation test, Sen's slope analysis with Mann-Kendall significance test, correlation analysis, and structural equation model. The results showed that the estimated FVC based on the pixel dichotomous model had high accuracy (R2>0.7, root mean square error <0.1, relative root mean square error <14%). From 1990 to 2020, the annual average FVC in Heilongjiang was 0.79, with a fluctuating upward trend (0.72-0.85) and an average annual growth rate of 0.4%. The annual average FVC at the municipal administrative districts level also showed different levels of increase of FVC. The area with extremely high FVC dominated the Heilongjiang Province with a gradual increase proportion. The area with increasing trend of FVC accounted for 67.4% of the total area, whereas the area with decreasing trend only accounted for 26.2%, and the rest remained unchanged. The correlation of human activity factor on annual average FVC was higher than that of growing season monthly average meteorological factor. The human activity factor was the main driver for FVC change in Heilongjiang Province, followed by land use type. The total effect of monthly average meteorological factor during the growing season on FVC change was negative. The results would serve as technical support for long-term FVC monitoring and driving force analysis in Heilongjiang Province, and provide a reference for ecological environment restoration and protection, as well as the formulation of related land use policy. Reference | Related Articles | Metrics | Comments（0）

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Research progress on the measurement of insect sensitive wavelength QIU Kerui, LI Jinggong, LIU Wen, WANG Xiaoping Chinese Journal of Applied Ecology    2023, 34 (5): 1430-1440.   DOI: 10.13287/j.1001-9332.202305.029 Abstract （263）      PDF（pc） （1417KB）（306）       Knowledge map    Save Insects use subtle and complex visual systems to capture spectral information and guide life activities. Spectral sensitivity of insect describes the relationship between the threshold of insect response to light stimulation and wavelength, which is the physiological basis and necessary condition for the generation of sensitive wavelength. The sensitive wavelength is the light wave with the strong reaction at the physiological or behavioral level of insects, which is the special and specific manifestation of spectral sensitivity. Understanding the physiological basis of insect spectral sensitivity can effectively guide the determination of sensitive wavelength. In this review, we summarized the physiological basis of insect spectral sensitivity, analyzed the intrinsic influence of each link in the photosensitive process on spectral sensitivity, and summarized and compared the measurement methods and research results about the sensitive wavelength of different insect species. The optimal scheme of the sensitive wavelength measurement based on the analysis of the key influencing factors can provide references for the development and improvement of light trapping and control technology. Finally, we proposed that neurological research of spectral sensitivity of insect should be strengthened in the future. Reference | Related Articles | Metrics | Comments（0）

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Habitat suitability evaluation of invasive plant species Datura stramonium in Liaoning Province: Based on Biomod2 combination model WANG Ziwen, YIN Jin, WANG Xing, CHEN Yue, MAO Zikun, LIN Fei, GONG Zongqiang, WANG Xugao Chinese Journal of Applied Ecology    2023, 34 (5): 1272-1280.   DOI: 10.13287/j.1001-9332.202305.017 Abstract （404）      PDF（pc） （2613KB）（303）       Knowledge map    Save Datura stramonium, as a major invasive plant in Liaoning Province, is difficult to be removed after its successful invasion, and is a great threat to ecological environment and biodiversity. To evaluate the habitat suitabi-lity of D. stramonium, we collected its geographic distribution data in Liaoning Province through field investigation and database query, and using the Biomod2 combination model, and investigated its potential and suitable distribution areas and main influencing environmental variables at present and under future climate change scenarios, respectively. The results showed that the combined model which composed of GLM (generalized linear model), GBM (generalized boosting regression model), RF (random forest model), and MaxEnt (maximum entropy model) had a good performance. By classifying the habitat suitability of D. stramonium into four categories: high-, medium-, low- and un-suitable habitats, we found that the high-suitable habitats were generally distributed in the northwest and south of Liaoning Province, with an area of about 3.81×104 km2, accounting for 25.8% of the total area. The medium-suitable habitats were mostly distributed in the northwest and central parts of Liaoning Province, with an area of about 4.19×104 km2, accounting for 28.3% of the total area. Slope and clay content of topsoil (0-30 cm) were the two main variables explaining the habitat suitability of D. stramonium, and the total suitability of D. stramonium first increased and then decreased with the increasing slope and clay content of topsoil in this region. Under future climate change scenarios, the total suitability of D. stramonium showed an expanding trend, and its suitability would be obviously increased in Jinzhou, Panjin, Huludao, and Dandong. Reference | Related Articles | Metrics | Comments（0）

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Effect of thinning intensity on natural regeneration of Larix principis-rupprechtii Feng Yonghan, YAN Jue, GUO Yu, ZHAO Yi, DONG Yuan, LIANG Wenjun, WEI Xi, BI Huaxing Chinese Journal of Applied Ecology    2023, 34 (5): 1169-1177.   DOI: 10.13287/j.1001-9332.202305.006 Abstract （263）      PDF（pc） （1402KB）（301）       Knowledge map    Save We analyzed the impacts of thinning intensity on the natural regeneration of Larix principis-rupprechtii in Shanxi Pangquangou Nature Reserve, with an experiment of five thinning intensities (5%, 25%, 45%, 65% and 85%). We constructed a structural equation model of thinning intensity-understory habitat-natural regeneration by using correlation analysis. The results showed that the regeneration index of moderate thinning (45%) and intensive thinning (85%) stand land was significantly higher than that of other thinning intensities. The constructed structural equation model had good adaptability. The effects of thinning intensity on each factor were as follows: soil alkali-hydrolyzable (-0.564) > regeneration index (0.548) > soil bulk density (-0.462) > average height of seed tree (-0.348) > herb coverage (-0.343) > soil organic matter (0.173) > undecomposed litter layer thickness (-0.146) > total soil nitrogen (0.110). Thinning intensity had a positive impact on the regeneration index, which was mainly through adjusting height of the seed tree, accelerating litter decomposition, improving soil physical and chemical properties, and thus indirectly promoting the natural regeneration of L. principis-rupprechtii. Tending thinning could effectively improve the survival environment of regeneration seedlings. From the perspective of natural regeneration of L. principis-rupprechtii, moderate thinning (45%) and intensive thinning (85%) were more reasonable in the follow-up forest management. Reference | Related Articles | Metrics | Comments（0）

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Research review on the pollution of antibiotic resistance genes in livestock and poultry farming environments WANG Wenjie, YU Liming, SHAO Mengying, JIA Yantian, LIU Liuqingqing, MA Xiaohan, ZHENG Yu, LIU Yifan, ZHANG Yingzhen, LUO Xianxiang, LI Fengmin, ZHENG Hao Chinese Journal of Applied Ecology    2023, 34 (5): 1415-1429.   DOI: 10.13287/j.1001-9332.202305.032 Abstract （290）      PDF（pc） （3248KB）（268）       Knowledge map    Save Increasingly serious pollution of antibiotic resistance genes (ARGs) caused by the abuse of antibiotics in livestock and poultry industry has raised worldwide concerns. ARGs could spread among various farming environmental media through adsorption, desorption, migration, and also could transfer into human gut microbiome by hori-zontal gene transfer (HGT), posing potential threats to public health. However, the comprehensive review on the pollution patterns, environmental behaviors, and control techniques of ARGs in livestock and poultry environments in view of One Health is still inadequate, resulting in the difficulties in effectively assessing ARGs transmission risk and developing the efficient control strategies. Here, we analyzed the pollution characteristics of typical ARGs in various countries, regions, livestock species, and environmental media, reviewed the critical environmental fate and influencing factors, control strategies, and the shortcomings of current researches about ARGs in the livestock and poultry farming industry combined with One Health philosophy. In particular, we addressed the importance and urgency of identifying the distribution characteristics and environmental process mechanisms of ARGs, and developing green and efficient ARG control means in livestock farming environments. We further proposed gaps and prospects for the future research. It would provide theoretical basis for the research on health risk assessment and technology exploitation of alleviating ARG pollution in livestock farming environment. Reference | Related Articles | Metrics | Comments（0）

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Impacts of nature reserve policy on regional ecological environment quality: A case study of Sanjiangyuan region WANG Qingyun, ZHOU Dingyang, AN Pingli, JIANG Guanghui Chinese Journal of Applied Ecology    2023, 34 (5): 1349-1359.   DOI: 10.13287/j.1001-9332.202305.023 Abstract （270）      PDF（pc） （2868KB）（267）       Knowledge map    Save Uncovering the ecological effectiveness of nature reserve policies will help protect and manage nature reserves in the future. Taking Sanjiangyuan region as an example, we examined the impacts of the spatial layout characteristics of natural reserves on the ecological environment quality by constructing the dynamic degree of land use and land cover change index, and depicted the spatial differences of the ecological effectiveness of natural reserve policies both inside and outside the natural reserves. Combined with ordinary least squares and field survey results, we explored the influencing mechanism of nature reserve policies on ecological environment quality. The results showed that the ecological quality of the whole region of Sanjiangyuan had been improved significantly since the implementation of the nature reserve policies, and that the transformation of unused land into ecological land was the most important type of land use change for the ecological environment quality improvement. The ecological effectiveness of large-scale nature reserves with concentrated and contiguous distribution was obvious, while the ecological effectiveness of small-scale nature reserves with scattered distribution and close to the administrative boundaries was relatively small. Although the ecological effectiveness of nature reserves was better than that of non-reserved areas, the ecological improvement of nature reserves and the surrounding areas was synchronous. The nature reserve policy had significantly improved ecological environment quality by implementing ecological protection and restoration projects in nature reserves. Meanwhile, it had alleviated the pressure of farmers and herdsmen's activities on the ecological environment by taking measures such as grazing restriction and guiding conversion of industry and production. In the future, we should promote the construction of ecosystem integrity protection network system with National Park as the core, strengthen the integrated protection and linkage management of National Park and surrounding areas, and help farmers and herdsmen further broaden their livelihoods. Reference | Related Articles | Metrics | Comments（0）

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Effects of liming on soil respiration and its sensitivity to temperature in Cunninghamia lanceolata plantations TIAN Ning, HUANG Xuemei, CHEN Longchi, HUANG Ke, TAO Xiao Chinese Journal of Applied Ecology    2023, 34 (5): 1194-1202.   DOI: 10.13287/j.1001-9332.202305.011 Abstract （251）      PDF（pc） （1564KB）（263）       Knowledge map    Save The primary distribution area of acid deposition coincides with areas of Chinese fir (Cunninghamia lanceolata) plantations. Liming is an effective method of restoring acidified soil. To understand the effects of liming on soil respiration and temperature sensitivity within the context of acid deposition, we measured soil respiration and its components in Chinese fir plantations for one year beginning in June 2020, with 0, 1 and 5 t·hm-2 calcium oxide being added in 2018. The results showed that liming considerably increased soil pH and exchangeable Ca2+ concentration, and that there was no significant difference among different levels of lime application. Soil respiration rate and components in the Chinese fir plantations exhibited seasonal variations, with the highest values during the summer and the lowest values during the winter. Although liming did not alter seasonal dynamics, it strongly inhibited heterotrophic respiration rate and increased autotrophic respiration rate of soil, with minor effect on total soil respiration. The monthly dynamics of soil respiration and temperature were largely consistent. There was a clear exponential relationship between soil respiration and soil temperature. Liming increased temperature sensitivity Q10 of soil respiration and autotrophic respiration but reduced that of soil heterotrophic respiration. In conclusion, liming promoted soil autotrophic respiration and strongly inhibited soil heterotrophic respiration in Chinese fir plantations, which would facilitate soil carbon sequestration. Reference | Related Articles | Metrics | Comments（0）

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Diversity and community assembly mechanism of soil ectomycorrhizal fungi in urban parks of Baotou City, China WANG Yonglong, ZHANG Xuan, XU Ying, ZHAO Yanling, WANG Jiaqi, ZHANG Yujia, YANG Yanci Chinese Journal of Applied Ecology    2023, 34 (5): 1225-1234.   DOI: 10.13287/j.1001-9332.202305.007 Abstract （267）      PDF（pc） （2971KB）（255）       Knowledge map    Save Ectomycorrhizal (EM) fungi play an important role in forest ecosystems. However, little is known about the mechanisms driving diversity and community composition of soil EM fungi in urban forest parks which are intensively affected by anthropogenic activities. In this study, we investigated the EM fungal community using Illumina high-throughput sequencing with soil samples collected from three typical forest parks, including Olympic Park, Laodong Park, and Aerding Botanical Garden of Baotou City. The results showed that soil EM fungi richness index followed a pattern of Laodong Park (146.43±25.17) > Aerding Botanical Garden (102.71±15.31) > Olympic Park (68.86±6.83). Russula, Geopora, Inocybe, Tomentella, Hebeloma, Sebacina, Amanita, Rhizopogon, Amphinema, and Lactarius were the dominant genera in the three parks. EM fungal community composition was significantly different among the three parks. Results of linear discriminant analysis effect size (LEfSe) indicated that all parks had biomarker EM fungi that exhibiting significantly different abundance. The normalized stochasticity ratio (NST) and the inferring community assembly mechanisms by phylogenetic-bin-based null model analysis (iCAMP) showed that both stochastic and deterministic processes determined soil EM fungal communities in the three urban parks, with a dominant role of the stochastic process. Drift and dispersal limitation in the stochastic process and homogeneous selection in the deterministic process were the dominant ecological processes of soil EM fungal community assembly in the three urban parks. Reference | Related Articles | Metrics | Comments（0）

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Mechanism underlying temperature sensitivity of soil organic carbon decomposition: A review CHEN Zhenxiong, ZHANG Chao, LI Quan, SONG Xinzhang, SHI Man Chinese Journal of Applied Ecology    2023, 34 (9): 2575-2584.   DOI: 10.13287/j.1001-9332.202309.017 Abstract （323）      PDF（pc） （1550KB）（236）       Knowledge map    Save Temperature sensitivity (Q10) of soil organic carbon (SOC) decomposition is an important index to estimate the dynamics of soil C budget. However, the spatial variation of Q10 and its influencing factors remain largely uncertain. In this study, we reviewed the effects of climate environment, spatial geographic pattern, soil physicochemical property, vegetation type, microbial community composition and function, and global climate change on Q10 to summarize the general rule of each factor influencing Q10 and compare the relative contribution of each factor to Q10 in different ecosystems. The results showed that Q10 decreases with the increases of temperature and precipitation, but increases with the rise of latitude and altitude. The Q10 value is higher in grassland than that in forest, and also in coniferous forest and deciduous forest than that in evergreen broad-leaved forest. Carbon quality is negatively correlated with Q10, but the C quality hypothesis is not always valid with exogenous substrate input. For example, the increment of substrate availability may significantly increase Q10 in low-quality soils. Q10 decreases with the enhanced proportion of r-strategy microorganisms (Proteobacteria and Ascomycetes), but increases with the enhanced proportion of K-strategy microorganisms (Acidobacteria and Basidiomycetes). Q10 increases with elevated CO2 concentration, but declines with atmospheric nitrogen deposition. In natural ecosystems, Q10 is mainly regulated by temperature and C quality. Temperature is the main factor regulating Q10 in the topsoil while C quality is the main factor in deep soil. Our review provided a theoretical support to improve the coupled climate-C cycle model and achieved the C neutral strategy under global warming. Reference | Related Articles | Metrics | Comments（0）

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Responses of nitrogen and phosphorus resorption of understory plants to microscale soil nutrient hetero-geneity in Chinese fir plantation ZHI Kexiang, GUAN Xin, LI Renshan, WANG Jiao, DUAN Xuan, CHEN Bohan, ZHANG Weidong, YANG Qingpeng Chinese Journal of Applied Ecology    2023, 34 (5): 1187-1193.   DOI: 10.13287/j.1001-9332.202305.003 Abstract （255）      PDF（pc） （1064KB）（227）       Knowledge map    Save We compared the interspecific differences in leaf nutrient resorption of two dominant understory species (Lophatherum gracile and Oplimenus unulatifolius), and analyzed the correlations between the intraspecific efficiency of leaf nutrient resorption and nutrient properties of soil and leaves in Chinese fir plantation. The results showed high soil nutrient heterogeneity in Chinese fir plantation. Soil inorganic nitrogen content and available phosphorus content varied from 8.58 to 65.29 mg·kg-1 and from 2.43 to 15.20 mg·kg-1 in the Chinese fir plantation, respectively. The soil inorganic nitrogen content in O. undulatifolius community was 1.4 times higher than that in L. gra-cile community, but there was no significant difference in soil available phosphorus content between the two communities. Both leaf nitrogen and phosphorus resorption efficiency of O. unulatifolius was significantly lower than that of L. gracile under the three measurement bases of leaf dry weight, leaf area, and lignin content. Resorption efficiency in L. gracile community expressed on leaf dry weight was lower than that expressed on leaf area and lignin content, while resorption efficiency expressed on leaf area was the lowest in O. unulatifolius community. The intraspecific resorption efficiency was significantly correlated with leaf nutrient contents, but was less correlated with soil nutrient content, and only the nitrogen resorption efficiency of L. gracile had significant positive correlation with soil inorganic nitrogen content. The results indicated that there was significant difference in the leaf nutrient resorption efficiency between the two understory species. Soil nutrient heterogeneity exerted a weak effect on the intraspecific nutrient resorption, which might be attributed to high soil nutrient availability and potential disturbance from canopy litter in Chinese fir plantation. Reference | Related Articles | Metrics | Comments（0）

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Effects of drip irrigation frequency on the yield and nutrient utilization efficiency of tomato under long-season cultivation in solar greenhouse MENG Qingqing, WU Fengling, SONG Jianli, WEI Min, MENG Lun, LI Jing, YANG Fengjuan Chinese Journal of Applied Ecology    2023, 34 (5): 1297-1304.   DOI: 10.13287/j.1001-9332.202305.014 Abstract （203）      PDF（pc） （489KB）（223）       Knowledge map    Save To improve the utilization efficiency of nutrients and water and determine the best drip irrigation frequency for long-season tomato cultivation in solar greenhouses, we cultivated tomato grafted seedlings in soil using an integrated water and fertilizer technology: drip irrigation under mulch. Seedlings drip-irrigated with balanced fertilizer (containing 20% N, 20% P2O5, and 20% K2O) and high-K fertilizer (containing 17% N, 8% P2O5, and 30% K2O) once every 12 days were set as control (CK) and that with water once every 12 days as CK1, while other seedling groups, drip-irrigated with a nutrient solution of Yamazaki (1978) formula for tomato, were set as treatments (T1-T4). There were four drip-irrigation frequencies, i.e., once every 2 days (T1), 4 days (T2), 6 days (T3), or 12 days (T4), who received the same total amounts of fertilizer and water over the 12 experimental days. The results showed that, with the decreases of drip irrigation frequency, tomato yield, the accumulation of N, P and K in plant dry matter, the fertilizer partial productivity, and the nutrient utilization rate first increased and then decreased, peaking at the T2 treatment. Compared with CK, under the T2 treatment, plant dry matter accumulation and the accumulation of N, P and K increased by 4.9%, 8.0%, 8.0%, 16.8%, the partial productivity of fertilizer and the utilization efficiency of water increased by 142.8% and 12.2%, the use efficiency of N, P and K was better than CK by 241.4%, 466.6% and 235.9%, respectively, and the tomato yield increased by 12.2%. Under the experimental conditions, drip irrigation with the Yamazaki nutrient solution at a frequency of 4 days could increase the tomato yield, as well as the use efficiency of nutrients and water. Under long-season cultivation, these trends would result in considerable saving of water and fertilizer. Overall, our findings provided a basis for improving the scientific management of water and fertilizers under long-season tomato cultivation in protected facilities. Reference | Related Articles | Metrics | Comments（0）

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Multidimensional climatic niche conservatism and invasion risk of Phenacoccus solenopsis ZHANG Huisheng, XU Lin, LYU Weiwei, ZHOU Yu, WANG Weifeng, GAO Ruihe, CUI Shaopeng, ZHANG Zhiwei Chinese Journal of Applied Ecology    2023, 34 (6): 1649-1658.   DOI: 10.13287/j.1001-9332.202306.018 Abstract （207）      PDF（pc） （1901KB）（217）       Knowledge map    Save The cotton mealybug Phenacoccus solenopsis, a globally invasive insect, is listed as a national quarantine pest in agriculture and forestry, which seriously threatens biological safety of China. Niche conservatism is a key assumption of species distribution model. An evaluation of the applicability of using ecological niche models to assess the invasion risk of cotton mealybug, and further optimizing model complexity, are of both theoretical and practical significance. Based on 706 occurrence records and key bioclimatic variables, we used n-dimensional hypervolume niche analysis method to quantify the climatic niche hypervolumes of this pest in both native and invasive sites, and further tested the niche conservatism hypothesis. MaxEnt model parameters were optimized to predict the invasion risk of the mealybug under current and future climate scenarios in China. The results showed that four climatic variables (annual mean temperature, mean temperature of wettest quarter, mean temperature of warmest quarter, and precipitation of driest quarter) were the key climate factors affecting the distribution of cotton mealybug. Compared with native climatic niche (hypervolume volume, HV=40.43), the niche hypervolume of cotton mealybug in the invasive areas was significantly reduced (HV=6.04). Niche contraction (the net differences between the amount of space enclosed by each hypervolume was 0.84) explained 98.8% of niche differentiation, whereas niche shift (the replacement of space between hypervolumes was 0.01) contributed less than 2%. The direction of climatic niche contraction of the pest in different invasive areas was not exactly consistent. The default parameters of MaxEnt model were unreliable (ΔAICc=14.27), and the optimal parameter combination was obtained as follows: feature combination was linear-quadratic-hinge-product and regularization multiplier was 0.5. The most suitable habitats of cotton mealybug were concentrated in the south of Huaihe River-Qinling Mountains line, and the north-central provinces contained a large area of low suitable habitat. The increase of suitable habitat was not significant at the end of 21 century (SSP1-2.6: 1.7%, SSP5-8.5: 0.7%). The multidimensional climatic niche of P. solenopsis was highly conservative. The species distribution model was suitable for analyzing its invasion risk. The northward spread was obvious, and climate change had less impact on the pest. Reference | Related Articles | Metrics | Comments（0）

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Climate suitability division of solar greenhouse in Inner Mongolia Autonomous Region, China WU Rongsheng, WU Ruifen, JIN Linxue, WANG Huizhen, LIU Shuning, JIANG Shaojie, LIU Xiaxia, ZHENG Shiran Chinese Journal of Applied Ecology    2023, 34 (5): 1305-1312.   DOI: 10.13287/j.1001-9332.202305.027 Abstract （178）      PDF（pc） （1506KB）（215）       Knowledge map    Save To resolve the issue of scientific planning and rational layout of different vegetable greenhouses in Inner Mongolia Autonomous Region, we selected the days of low temperature in winter, sunshine hours, overcast days, extreme minimum temperature, days of monsoon disaster, days of snow cover in production season of greenhouse as the climate zoning indicators, based on ground-based observation data from 119 meteorological stations (1991 to 2020) and the growing demand of leafy and fruity vegetables in greenhouse, combined with the analysis of key meteorological factors in production season and the study of meteorological disaster indicators such as low temperature and cold damage, wind disaster, snow disaster. We analyzed the indices, classification and division of comprehensive climate suitability zoning of leafy and fruity vegetables at various slopes (35°, 40°) of solar greenhouse by the weighted sum method. The results showed that the climatic suitability zoning grades of leafy and fruity vegetables at 35° and 40° slope of greenhouse was highly consistent, and that the greenhouse climate suitability of leafy vegetables was higher than that of fruity vegetables in the same region. As the slope increased, wind disaster index decreased and snow disaster index increased. Climate suitability was different in areas affected by wind and snow disasters. The northeast of the study area was mainly affected by snow disasters, and the climate suitability of 40° slope was higher than 35°. The southeast of the study area was mainly affected by wind disasters, and the climate suitability of 35° slope was higher than 40°. Alxa League, Hetao Irrigation District, Tumochuan Plain, most parts of Ordos, southeast of Yanshan foothills and the south of West Liaohe Plain were the most suitable area for the solar greenhouse, because they had the suitable solar and hot resources and the low risks of wind and snow damage, which were also the key development areas of current and future facility agriculture. Due to the deficiency of solar and hot resources, high energy consumption in greenhouse production and frequent snow storms, the area around Khingan range in the northeast of Inner Mongolia was unsuitable for greenhouse. Reference | Related Articles | Metrics | Comments（0）