氮和生物炭施加量对香榧林地土壤及植株生长的影响OA
Effects of nitrogen and biochar application amount on soil characteristics and plant growth of Torreya grandis forest
[目的]近年来,我国东南地区大气氮沉降日益严重.探究氮与生物炭施加量对香榧(Torreya grandis)林地土壤养分、微生物群落碳源利用能力、叶片与果实养分等方面的影响,为其科学施肥与可技术经营提供参考.[方法]设置6个处理:N0BC0(无氮无生物炭),N0BC1(20 t/hm2生物炭),N0BC2(40 t/hm2生物炭),N30BC0[30.0 kg/(hm2·a)NH4HO3],N30BC1[30.0 kg/(hm2·a)NH4HO3+20 t/hm2 生物炭]和 N30BC2[30.0 kg/(hm2·a)NH4HO3+40 t/hm2生物炭]进行土壤理化、微生物生物量碳(MBC)、微生物代谢检测并统计分析.[结果]①施氮处理显著增加土壤有机碳含量、叶片镁元素含量及果实可溶性糖含量,但显著降低叶片钾元素含量;②施生物炭处理提高土壤养分、叶片养分及果实品质,但显著降低土壤微生物代谢活性;③与单施生物炭相比,N30BC1处理较N0BC1处理显著提高土壤养分含量、土壤微生物代谢活性及对碳源的利用率,但显著降低土壤MBC含量;N30BC2处理较N0BC2处理显著提高土壤的全磷、果实可溶性蛋白含量和叶片N、P质量比;④与N30BC2处理相比,N30BC1处理有更高的土壤养分、叶片养分和微生物代谢活性,以及更低的叶片N、P质量比.[结论]施氮与生物炭均能提高香榧林地土壤养分和促进植株生长,但施氮结合20 t/hm2生物炭处理更有利于提高香榧品质和产业的可持续发展.
[Objective]In recent years,atmospheric nitrogen deposition in southeastern China has become increasingly severe,raising significant concerns about its ecological impacts.To systematically investigate the combined effects of external nitrogen input and biochar addition on the Torreya grandis plantation ecosystem,this study focused on the interactions among soil nutrient status,microbial community functional characteristics-particularly carbon source metabolic utilization capacity-and nutrient dynamics in plant leaves and fruits.A multi-factor-controlled experiment was designed to clarify the synergistic effects of different nitrogen fertilizer and biochar application patterns on soil physicochemical properties,microbial activity,tree nutrition,and fruit quality.The findings aim to provide a theoretical basis and practical guidance for scientific fertilization and sustainable management of T.grandis plantations.[Method]The experiment followed a completely randomized block design with six treatment combinations:N0BC0(control,no nitrogen or biochar),N0BC1(biochar alone at 20 t/hm2),N0BC2(biochar alone at 40 t/hm2),N30BC0(nitrogen fertilizer alone as NH4NO3 at 30.0 kg/(hm2·a)),N30BC1(30.0 kg/(hm2·a)NH4NO3 with 20 t/hm2 biochar),and N30BC2(30.0 kg/(hm2·a)NH4NO3 with 40 t/hm2 biochar).Throughout the trial,soil physicochemical properties-including organic carbon,total nitrogen,total phosphorus,available phosphorus,available potassium,and pH-were systematically monitored and analyzed.Soil microbial biomass carbon and microbial community metabolic function activity were assessed using Biolog ECO microplate analysis.Leaf samples and mature fruits were periodically collected to determine nutrient element content(nitrogen,phosphorus,potassium,magnesium,etc.)and fruit quality indicators(soluble sugars,soluble proteins).All data were processed using statistical methods such as analysis of variance and multiple comparisons to identify significant differences among treatments.[Result](1)The results showed that nitrogen fertilizer application alone(N30BC0)significantly increased soil organic carbon content,leaf magnesium accumulation,and fruit soluble sugar concentration,but also significantly reduced leaf potassium content,indicating that while nitrogen input promoted carbon sequestration and certain nutrient uptake,it may pose a risk of potassium nutritional imbalance.(2)Biochar application alone(N0BC1 and N0BC2)generally improved soil nutrient status,leaf nutrition,and fruit quality,but significantly suppressed the overall metabolic activity of the soil microbial community,possibly due to biochar adsorption of microorganisms or alterations in the micro-environment.(3)Regarding the interaction between nitrogen and biochar,the low-biochar nitrogen combination(N30BC1)significantly enhanced soil nutrient content,microbial metabolic activity,and carbon source utilization efficiency compared to low-biochar alone(N0BC1),but reduced soil microbial biomass carbon.The high-biochar nitrogen combination(N30BC2)significantly increased soil total phosphorus,fruit soluble protein content,and leaf ratio of N to P compared to high-biochar alone(N0BC2).(4)Comparing the two combination ratios,the N30BC1 treatment outperformed N30BC2 in terms of soil nutrients,leaf nutrition,and microbial metabolic activity,and exhibited a significantly lower mass ratio of leaf N to P,suggesting that combining nitrogen fertilizer with a lower biochar application rate is more conducive to maintaining plant nutritional balance.[Conclusion]In summary,both nitrogen fertilizer and biochar application alone can improve soil fertility and promote plant growth in T.grandis plantations to varying degrees.However,their combined effects involve complex synergistic and antagonistic interactions.Based on a comprehensive evaluation of multiple indicators,the combination of 30.0 kg/(hm2·a)ammonium nitrate nitrogen fertilizer with 20 t/hm2 biochar(N30BC1)not only significantly enhances T.grandis fruit quality but also better balances soil ecological function and plant nutrition.This approach represents an optimized management strategy for coordinating yield,quality,and plantation sustainability,and is recommended for demonstration and application in practical production,taking into account specific site conditions.
叶浩杰;周展华;谢凌皓;楼君;楼科勋;喻卫武;吴家胜;胡渊渊
浙江农林大学林业与生物技术学院,森林食物资源挖掘与利用全国重点实验室,全省经济林品质调控与加工利用重点实验室,浙江 杭州 311300浙江农林大学林业与生物技术学院,森林食物资源挖掘与利用全国重点实验室,全省经济林品质调控与加工利用重点实验室,浙江 杭州 311300浙江农林大学林业与生物技术学院,森林食物资源挖掘与利用全国重点实验室,全省经济林品质调控与加工利用重点实验室,浙江 杭州 311300杭州市富阳区农业技术推广中心,浙江 杭州 311400杭州市富阳区农业技术推广中心,浙江 杭州 311400浙江农林大学林业与生物技术学院,森林食物资源挖掘与利用全国重点实验室,全省经济林品质调控与加工利用重点实验室,浙江 杭州 311300浙江农林大学林业与生物技术学院,森林食物资源挖掘与利用全国重点实验室,全省经济林品质调控与加工利用重点实验室,浙江 杭州 311300浙江农林大学林业与生物技术学院,森林食物资源挖掘与利用全国重点实验室,全省经济林品质调控与加工利用重点实验室,浙江 杭州 311300
农业科技
香榧施氮处理生物炭土壤有机碳土壤养分
Torreya grandisnitrogen applicationbiocharsoil organic carbonsoil nutrients
《南京林业大学学报(自然科学版)》 2026 (3)
62-71,10
国家重点研发计划(2024YFD2200600)浙江省大学生科技创新活动计划(新苗人才计划)(2024R412C057)浙江省重大科技专项(2021C02066-11).
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