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学者姓名:郑德祥
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Silicon (Si) fertilization has been applied widely in human-dominated agroecosystem to enhance storage of soil organic carbon (SOC). However, its effects on SOC in forest ecosystem remain poorly understood, particularly regarding the mechanism underlying OC storage. Here, this study conducted a field experiment with three Si fertilization levels of 0, 70 and 140 kg Si ha(-1) in Cunninghamia lanceolata (Chinese fir) plantations. Based on the measured physicochemical properties, microbial community structure, biomarkers, particulate (POC) and mineral-associated OC (MAOC) in the amended soils, we aimed to assess the effect of Si fertilization on SOC storage in forest ecosystem. Experimental results showed that, compared to the control, Si fertilization significantly increased tree height and biomass, as well as nutrient availability (e.g., NH4+-N, plant-available Si), moisture content, the relative abundance of specific taxa such as Chloroflexi, Actinobacteriota, Glomeromycota (arbuscular mycorrhizal fungi), and microbial alpha-diversity (Chao1 index). Furthermore, Si fertilization also significantly promoted the contents of lignin, amino sugar, microbial biomass carbon, POC, MAOC, and total SOC in the soils. Compared to the control treatment, both Si fertilization (70 kg ha(-1) and 140 kg ha(-1)) significantly increased the stocks of POC (from 37.2 % to 47.8 %), MAOC (from 9.6 % to 16.2 %, and SOC (from 12.0 % to 15.7 %). Structural equation modeling further verified that increased Si availability positively and significantly enhanced tree biomass, soil lignin, and amino sugar, promoting the MAOC and POC accumulation. These experimental results indicate that Si availability enhances nutrient bioavailability, which, in turn, promotes tree growth and subsequently responses to SOC storages through great plant debris input. Moreover, high Si fertilization significantly improved soil carbon pool management index. These findings highlight that Si fertilization as an approach of forest management offers potential to improve forest SOC storage by sequestrating POC and MAOC, thereby contributing to the global terrestrial carbon cycle.
Keyword :
Carbon storage Carbon storage Forest management Forest management Silicon fertilizer Silicon fertilizer Soil organic carbon Soil organic carbon Tree growth Tree growth
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| GB/T 7714 | Chen, Yifei , Jin, Shaofei , Wei, Wenhai et al. Silicon fertilization increases the particulate and mineral-associated organic carbon in Chinese fir forest ecosystem [J]. | FOREST ECOLOGY AND MANAGEMENT , 2025 , 595 . |
| MLA | Chen, Yifei et al. "Silicon fertilization increases the particulate and mineral-associated organic carbon in Chinese fir forest ecosystem" . | FOREST ECOLOGY AND MANAGEMENT 595 (2025) . |
| APA | Chen, Yifei , Jin, Shaofei , Wei, Wenhai , Cai, Siying , Su, Yi , Yue, Kai et al. Silicon fertilization increases the particulate and mineral-associated organic carbon in Chinese fir forest ecosystem . | FOREST ECOLOGY AND MANAGEMENT , 2025 , 595 . |
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Excessive light intensity, often resulting from anthropogenic disturbances, poses a threat to light-sensitive Liquidambar formosana seedlings. This study examined the effects of five light intensity levels and three silicon (Si) application rates on photosynthetic performance, oxidative stress responses, and seedling growth. Results indicated that full sunlight significantly reduced ground diameter, chlorophyll content, specific leaf area, and stomatal conductance. Meanwhile, it increased the activities of superoxide dismutase and peroxidase, and led to higher accumulation of malondialdehyde (MDA). Application of Si enhanced seedling height, biomass accumulation, and antioxidant enzyme activity under high-light conditions, while reducing MDA content, stomatal CO2 conductance, and transpiration rate, and maintaining a stable net photosynthetic rate. However, excessive Si (3000 mgkg-1) led to decreased catalase activity, chlorophyll content, and leaf area under intense light. These findings suggest that L. formosana seedlings perform best under moderate shade (11,000-46,000 lx) and moderate Si application (1000-2000 mgkg-1), which together mitigate photoinhibition damage. Optimal physiological responses thus require balanced Si concentrations. Further investigation is warranted to elucidate the mechanisms underlying the interactive effects of shading and Si application for improved seedling resilience.
Keyword :
high-light stress high-light stress Liquidambar formosana Liquidambar formosana plant resistance plant resistance silicon fertilizer silicon fertilizer
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| GB/T 7714 | Cai, Siying , Zheng, Minqian , Li, Tingting et al. Silicon Addition Alleviates Light Stress on Seedlings: Evidence from Plantation of Liquidambar formosana [J]. | PLANTS-BASEL , 2025 , 14 (21) . |
| MLA | Cai, Siying et al. "Silicon Addition Alleviates Light Stress on Seedlings: Evidence from Plantation of Liquidambar formosana" . | PLANTS-BASEL 14 . 21 (2025) . |
| APA | Cai, Siying , Zheng, Minqian , Li, Tingting , Hong, Youlu , Chen, Yifei , Li, Zhihui et al. Silicon Addition Alleviates Light Stress on Seedlings: Evidence from Plantation of Liquidambar formosana . | PLANTS-BASEL , 2025 , 14 (21) . |
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The cultivation of Cunninghamia lanceolata (Lamb.) Hook. (Chinese fir) plays a crucial role in enhancing ecological security through water resource preservation and carbon sequestration in China. The biotic and abiotic environmental conditions vary across different stages of plantation, thereby influencing soil nutrient levels and microbial dynamics. However, the interconnection between the soil nutrient cycle and microbial communities within Chinese fir plantations throughout their entire life cycle remains inadequately understood. In this study, conducted across various management stages of Chinese fir plantations in China (including the juvenile stage, first thinning stage, second thinning stage, mature stage, and over-mature stage), we examined the associations among soil organic carbon, soil physicochemical properties, soil enzyme activities, and soil microbial dynamics. Our results revealed that forest management practices significantly modify soil physicochemical properties and enzyme activities across all management stages. Specifically, the concentrations of total soil carbon, soil organic carbon, and soil microbial biomass carbon were notably higher in the over-mature stage compared to other management stages. At the genus level, the five highest contributors belonged to Subgroup2, AD3, Xanthobacteraceae, Elsterales, and Acidobacteriales for the bacterial community. For the fungal community at the genus level, the five highest contributors belonged to Ascomycota, Serendipita, Saitozyma, Mortieralla, and Venturiales. Moreover, anthropogenic thinning activities during the management phase substantially altered both stand and soil environments, as well as the structural characteristics of soil microbial communities. Soil cellulase, soil electrical conductivity (EC), and soil available phosphorus (AP) emerged as key factors influencing the relative abundance of major fungal communities, whereas soil total nitrogen, EC, and AP were identified as critical factors affecting the relative abundance of major bacterial phyla. More microbiological groups increased significantly in the juvenile stage and over-mature stage. Our findings elucidate the intricate relationships between the soil nutrient cycle and soil microbiological dynamics across various forest management stages within Chinese fir plantations.
Keyword :
Chinese fir Chinese fir forest management stage forest management stage soil enzyme activity soil enzyme activity soil microbial community soil microbial community soil organic carbon soil organic carbon soil physicochemical properties soil physicochemical properties
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| GB/T 7714 | Liao, Xiaoli , Chen, Yifei , Huang, Haifeng et al. Response of Soil Microbial Community in Different Forest Management Stages of Chinese fir Plantation [J]. | FORESTS , 2024 , 15 (7) . |
| MLA | Liao, Xiaoli et al. "Response of Soil Microbial Community in Different Forest Management Stages of Chinese fir Plantation" . | FORESTS 15 . 7 (2024) . |
| APA | Liao, Xiaoli , Chen, Yifei , Huang, Haifeng , Zhang, Hao , Su, Yi , Zheng, Dexiang et al. Response of Soil Microbial Community in Different Forest Management Stages of Chinese fir Plantation . | FORESTS , 2024 , 15 (7) . |
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Silicon fertilisers are widely utilised to achieve higher productivity in global terrestrial ecosystems, but their impact on the carbon cycle remains unclear. In this study, we used a meta -analysis approach to quantify the response of carbon pools and fluxes in terrestrial ecosystems worldwide to the application of silicon fertiliser while also investigating the factors influencing this response. The findings indicated that silicon fertiliser application led to significant increases in various carbon components: plant aboveground carbon increased by 22.9%, plant belowground carbon increased by 17.3%, litter carbon increased by 8.3%, and the SOC content increased by 8.6%. Furthermore, the net photosynthetic rate of plants was significantly enhanced by 28.1% through the application of silicon fertiliser, along with a notable increase of 36.9% in the net primary productivity of ecosystems, which exhibited a strong correlation with alterations in ecosystem carbon pools. A considerable reduction of 29.6% in soil CH4 emissions was observed, whereas the influence of silicon fertiliser on the litter decomposition rate and net soil CO2 emissions was not statistically significant. Moreover, fertilisation (such as vegetation and soil types), climatic conditions, and silicon fertiliser application techniques have been found to affect the responses of carbon pools and fluxes to silicon fertiliser application. Finally, a potential mechanism by which silicon fertilisation can affect plant growth, litterfall, soil organic carbon stability, and soil carbon emissions directly and indirectly by changing the available silicon and soil pH is proposed to explain the positive effects of silicon fertiliser application on terrestrial ecosystem carbon pools. This effect may change owing to the influence of fertilisation technology, fertilisation, climate, and other factors.
Keyword :
Carbon flux Carbon flux Carbon pools Carbon pools Silicon fertiliser Silicon fertiliser Terrestrial ecosystems Terrestrial ecosystems
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| GB/T 7714 | Chen, Yifei , He, Dongmei , Wu, Hangsheng et al. Silicon fertiliser application increases the terrestrial ecosystem carbon pool at the global scale [J]. | GEODERMA , 2024 , 442 . |
| MLA | Chen, Yifei et al. "Silicon fertiliser application increases the terrestrial ecosystem carbon pool at the global scale" . | GEODERMA 442 (2024) . |
| APA | Chen, Yifei , He, Dongmei , Wu, Hangsheng , Li, Yuru , Li, Peiyao , Huang, Haifeng et al. Silicon fertiliser application increases the terrestrial ecosystem carbon pool at the global scale . | GEODERMA , 2024 , 442 . |
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高效监测森林碳储量是科学开展碳汇经营的前提。基于国家森林资源连续清查体系,全国林草生态综合监测优化了森林样地的样本组织方式,但在规定的精度和可靠性下需要调查的样本单元数仍然较多。文中提出,今后应基于多阶抽样框架,采用三相抽样方法,结合碳储量区域分布格局特点,进行多尺度复杂抽样设计;运用随机化推断辅助的模型抽样推断,解决规定精度下的有限样本量小区域估计、数据缺失和计量误差等分级控制出数的难题,并进行复杂抽样不确定性分析及可靠性评估;形成分级控制下的森林碳储量年度监测复杂抽样设计和数据推断技术体系,以满足低成本、快速、准确的多尺度森林碳储量年度出数需求,运用于碳汇计量监测和林长制督查考核等实际工作。
Keyword :
分级控制 分级控制 动态监测 动态监测 森林碳储量 森林碳储量
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| GB/T 7714 | 吴恒 , 吕大伟 , 汪圣云 et al. “双碳”战略背景下的多尺度森林碳储量年度监测研究进展与思考 [J]. | 世界林业研究 , 2024 , 37 (01) : 59-64 . |
| MLA | 吴恒 et al. "“双碳”战略背景下的多尺度森林碳储量年度监测研究进展与思考" . | 世界林业研究 37 . 01 (2024) : 59-64 . |
| APA | 吴恒 , 吕大伟 , 汪圣云 , 郑德祥 , 孙帅超 . “双碳”战略背景下的多尺度森林碳储量年度监测研究进展与思考 . | 世界林业研究 , 2024 , 37 (01) , 59-64 . |
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为探究钙添加对林地土壤的改良效应,在杉木新造林地中分别按两种氮、磷肥量(N_1:50 kg/hm~2,N_2:100 kg/hm~2;P_1:50 kg/hm~2,P_2:100 kg/hm~2)与3种钙肥添加量(Ca_0:0 kg/hm~2,Ca_1:100 kg/hm~2,Ca_2:200 kg/hm~2)开展组合施肥试验,测定土壤理化性质与有效养分元素含量,分析钙添加对林地土壤环境的影响。结果表明:钙添加可以显著降低土壤容重,提高土壤pH、含水率,以及有机质、碱解氮、速效钾、交换性钙和交换性镁含量,对土壤有效磷含量的影响因氮、磷施肥处理不同而异;方差分析表明,土壤容重、pH,以及有机质、碱解氮、有效磷、交换性钙和交换性镁含量等7个指标受到不同施肥因子的影响极显著并存在极显著交互作用,土壤含水率则受不同钙添加量的极显著影响。土壤理化性质与有效养分元素含量之间具有较强的正相关性。在传统氮、磷肥施肥基础上添加钙肥有利于改善杉木人工新造林地土壤环境,缓解土壤酸化及提高土壤有效养分供给,提高杉木人工林质量。
Keyword :
新造林地 新造林地 施肥 施肥 有效养分 有效养分 杉木 杉木 生态修复 生态修复 钙添加 钙添加
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| GB/T 7714 | 廖晓丽 , 魏文海 , 蔡思莹 et al. 钙添加对杉木新造林地土壤理化性质及有效养分元素含量的影响 [J]. | 北华大学学报(自然科学版) , 2024 , 25 (04) : 516-523 . |
| MLA | 廖晓丽 et al. "钙添加对杉木新造林地土壤理化性质及有效养分元素含量的影响" . | 北华大学学报(自然科学版) 25 . 04 (2024) : 516-523 . |
| APA | 廖晓丽 , 魏文海 , 蔡思莹 , 薛可馨 , 邢郑瑜 , 詹旋常 et al. 钙添加对杉木新造林地土壤理化性质及有效养分元素含量的影响 . | 北华大学学报(自然科学版) , 2024 , 25 (04) , 516-523 . |
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Pot experiments were conducted using Chinese fir (Cunninghamia lanceolata (Lamb.) Hook.) and Phoebe bournei (Hemsl.) Yang) to investigate whether soil microplastics adversely affect the nurturing and renewal of plantations. Microplastics composed of polyethylene and polypropylene with a size of 48 mu m were used. The treatments included a control group (without microplastics) and groups treated with microplastic concentrations of 1% and 2% (w/w). The effects of microplastics on the growth, photosynthetic pigments in leaves, antioxidant systems, and osmotic regulation substances of the seedlings were analysed by measuring the seedling height, ground-line diameter growth, chlorophyll (chlorophyll a, chlorophyll b, and total chlorophyll) contents, antioxidant enzyme (superoxide dismutase, peroxidase, catalase) activities, and malondialdehyde, soluble sugar, and soluble protein levels. The results indicated that treatment with 1% polyethylene microplastics increased the chlorophyll a, total chlorophyll, and soluble protein contents in the leaves of both types of seedlings while inhibiting superoxide dismutase and peroxidase activities in P. bournei seedlings. Treatment with 2% polyethylene or polypropylene microplastics suppressed the chlorophyll a, chlorophyll b, and total chlorophyll contents; superoxide dismutase, peroxidase, and catalase activities; and soluble sugar and soluble protein levels in the leaves of both types of seedlings, resulting in reduced growth in terms of height and ground-line diameter. The physiological effects of polyethylene microplastics were more evident than those of polypropylene at the same concentration. The results demonstrated that microplastics can affect photosynthesis, the antioxidant system, and osmotic regulation in Chinese fir and P. bournei seedlings, thereby inhibiting their normal growth and development. Exposure to 1% (w/w) microplastics triggered stress responses in seedlings, whereas 2% (w/w) microplastics impeded seedling growth.
Keyword :
Antioxidant system Antioxidant system Growth and physiological characteristic Growth and physiological characteristic Microplastic Microplastic Photosynthetic pigment Photosynthetic pigment Seedling Seedling
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| GB/T 7714 | Li, Yuru , Chen, Yifei , Li, Peiyao et al. Microplastics in soil affect the growth and physiological characteristics of Chinese fir and Phoebe bournei seedlings☆ [J]. | ENVIRONMENTAL POLLUTION , 2024 , 358 . |
| MLA | Li, Yuru et al. "Microplastics in soil affect the growth and physiological characteristics of Chinese fir and Phoebe bournei seedlings☆" . | ENVIRONMENTAL POLLUTION 358 (2024) . |
| APA | Li, Yuru , Chen, Yifei , Li, Peiyao , Huang, Haifeng , Xue, Kexin , Cai, Siying et al. Microplastics in soil affect the growth and physiological characteristics of Chinese fir and Phoebe bournei seedlings☆ . | ENVIRONMENTAL POLLUTION , 2024 , 358 . |
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[目的]探究木荷幼苗在不同光照强度下对硅肥添加的响应,为提高木荷幼苗的光适应性与造林成效提供指导。[方法]以一年生的木荷幼苗为研究对象,设置5种不同的光照强度梯度(L
Keyword :
光合生理特性 光合生理特性 光照强度 光照强度 叶片性状 叶片性状 木荷 木荷 生长特性 生长特性 硅肥 硅肥
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| GB/T 7714 | 李沛瑶 , 李钰如 , 黄海峰 et al. 不同光照强度下硅肥添加对木荷幼苗叶片性状及光合生理特性的影响 [J]. | 林业科学研究 , 2024 , 37 (06) : 136-145 . |
| MLA | 李沛瑶 et al. "不同光照强度下硅肥添加对木荷幼苗叶片性状及光合生理特性的影响" . | 林业科学研究 37 . 06 (2024) : 136-145 . |
| APA | 李沛瑶 , 李钰如 , 黄海峰 , 林君漪 , 陈逸飞 , 王建鲁 et al. 不同光照强度下硅肥添加对木荷幼苗叶片性状及光合生理特性的影响 . | 林业科学研究 , 2024 , 37 (06) , 136-145 . |
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为探究外源硅添加对光照胁迫下楠木(Phoebe bournei)幼苗生长的影响,以楠木1 a生幼苗为研究对象,分析不同光照强度和硅添加对楠木幼苗生长、生物量、叶形态和光合参数的变化。结果表明,遮荫与硅添加对楠木幼苗生长和光合性状产生了显著影响,适度的遮荫和硅添加有利于楠木幼苗苗高、地径、各器官生物量和叶形态(叶长、叶宽和叶面积)的生长。光照强度的降低有利于楠木幼苗叶片叶绿素的积累,在15%~60%光照强度下硅添加进一步促进了叶绿素的积累,使楠木幼苗更适应光照胁迫;在15%~40%的中低光照强度下1 000~2 000mg/kg的硅添加有利于提高楠木幼苗叶片的叶绿素荧光参数,促进楠木幼苗的光合作用;而40%光照强度下1 000~2 000mg/kg的硅添加更有利于提高楠木幼苗叶片净光合速率、气孔导度和蒸腾速率,降低胞间CO2浓度,促进楠木幼苗光合能力的提高,提高楠木幼苗光照胁迫适应能力。因此,楠木幼苗适宜在一定的遮荫条件下更新造林,而硅添加有利于缓解光照胁迫,改善楠木幼苗在不同光照强度下的叶形态和光合作用效率,提高其对光照胁迫的生长适应性,进而促进苗木的生长,有利于造林更新成效的提高。
Keyword :
光合特性 光合特性 光照强度 光照强度 幼苗生长 幼苗生长 楠木 楠木 硅添加 硅添加
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| GB/T 7714 | 廖晓丽 , 薛可馨 , 蔡思莹 et al. 外源硅添加对楠木幼苗生长及光合特性的影响 [J]. | 热带亚热带植物学报 , 2024 , 32 (06) : 772-780 . |
| MLA | 廖晓丽 et al. "外源硅添加对楠木幼苗生长及光合特性的影响" . | 热带亚热带植物学报 32 . 06 (2024) : 772-780 . |
| APA | 廖晓丽 , 薛可馨 , 蔡思莹 , 李沛瑶 , 林君漪 , 余跃 et al. 外源硅添加对楠木幼苗生长及光合特性的影响 . | 热带亚热带植物学报 , 2024 , 32 (06) , 772-780 . |
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Abstract :
【目的】探究楠木幼苗对不同光照强度及硅肥的生理响应特征,为楠木林下更新及混交造林提供理论依据。【方法】以楠木1年生幼苗为研究对象,采用黑尼龙网布覆盖模拟相对光照强度分别为100%(全光照,CK),60%,40%,15%,5%的遮荫网室,将盆栽楠木幼苗移入不同相对光照强度遮荫网室中,分别添加0,1 000,2 000,4 000mg/kg水溶性硅肥(SiO_2含量≥50%),测定不同处理楠木幼苗的苗高增长量和地径增长量,分析处理早期(2021年8月,处理4个月)、中期(2021年12月,处理8个月)和晚期(2022年4月,处理12个月)不同处理楠木幼苗叶片生理指标(超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)、可溶性糖、可溶性蛋白、丙二醛(MDA))的变化。【结果】在同一相对光照强度下,随着硅添加量的增加,楠木苗高增长量和地径增长量总体先上升后下降,在相对光照强度为15%~40%条件下添加1 000~2 000 mg/kg硅明显提高了楠木苗高增长量和地径增长量。处理早期,当硅添加量相同时,随着相对光照强度的降低,楠木幼苗叶片SOD、POD和CAT活性总体先下降后升高,可溶性糖、可溶性蛋白和MDA含量总体先升高后下降;处理中期,当硅添加量相同时,随着相对光照强度的降低,楠木幼苗叶片SOD、POD活性和可溶性糖含量总体先升高后下降,CAT活性和MDA含量总体先下降后升高,可溶性蛋白含量无明显变化规律;处理晚期,当硅添加量相同时,随着相对光照强度的降低,楠木幼苗叶片SOD、POD和CAT活性和可溶性糖、可溶性蛋白含量总体先升高后下降,MDA含量总体先下降后升高。在处理早期、中期和晚期,在同一光照强度下,随着硅添加量的增加,楠木幼苗叶片生理指标有明显差异。在相对光照强度为5%~40%条件下,添加1 000~2 000 mg/kg硅明显提高了楠木幼苗叶片SOD和CAT活性;在不同相对光照强度下添加1 000~2 000 mg/kg硅总体明显提高了楠木幼苗叶片可溶性糖含量。在相对光照强度为5%~15%条件下,添加2 000 mg/kg硅可明显提高楠木幼苗的可溶性蛋白含量。在相对光照强度为15%~40%条件下,添加1 000~4 000 mg/kg硅可明显降低幼苗叶片MDA含量。【结论】不同相对光照强度下硅对楠木幼苗生长及叶片生理指标有明显影响。适当遮荫有利于楠木幼苗的生长,且在此基础上添加硅肥将进一步提...
Keyword :
光照强度 光照强度 叶片生理指标 叶片生理指标 林下更新 林下更新 楠木幼苗 楠木幼苗 硅肥 硅肥
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| GB/T 7714 | 廖晓丽 , 蔡思莹 , 李沛瑶 et al. 楠木幼苗对不同光照强度及硅肥的生理响应 [J]. | 西北农林科技大学学报(自然科学版) , 2024 , (12) : 1-11 . |
| MLA | 廖晓丽 et al. "楠木幼苗对不同光照强度及硅肥的生理响应" . | 西北农林科技大学学报(自然科学版) 12 (2024) : 1-11 . |
| APA | 廖晓丽 , 蔡思莹 , 李沛瑶 , 薛可馨 , 林君漪 , 熊厚水 et al. 楠木幼苗对不同光照强度及硅肥的生理响应 . | 西北农林科技大学学报(自然科学版) , 2024 , (12) , 1-11 . |
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