不同水氮处理下毛白杨碳氮磷化学计量特征
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摘要
为了解灌水和施氮对毛白杨(Populus tomentosa Carrière)优良无性系休眠期各器官碳(C)、氮(N)、磷(P)化学计量特征的影响,利用毛白杨速生丰产林10年连续灌水和施氮双因素试验(通过灌水分别维持土壤含水量至田间持水量的45%、60%、75%;施氮量为0、101.6、203.2、304.8 kg/hm2,共计12个处理,每个处理3次重复)林地,选择其中的优良无性系S86为研究对象,2016年10月末待树木生长停止进入休眠期时,在每个水氮处理小区选取1株标准木并对其进行伐倒肢解处理后,测定分析毛白杨根、干、枝中的碳、氮、磷含量.结果显示:(1)毛白杨树干和枝碳、磷含量显著高于根(P <0.05);氮含量在各器官间差异显著,大小为枝>根>干. C:N在各器官间差异显著,大小为干>根>枝;C:P在各器官间差异不显著;N:P在各器官间差异显著,大小为枝>根>干.(2)灌水对各器官碳含量无显著影响,施氮显著降低根碳含量;灌水、施氮以及两者交互作用均显著影响根、干、枝氮含量,灌水和施氮显著增加各器官氮含量,并在高水高氮条件下毛白杨各器官氮含量显著增大.(3)灌水和施氮显著降低了毛白杨各器官C:N,对C:P影响不显著,显著增加N:P含量.本研究表明,灌水和施氮均促进了毛白杨各器官对氮的吸收,从而提高各器官氮含量;灌水和施氮降低了各器官C:N,促进了毛白杨生长;尽管此区为毛白杨适生区,但毛白杨速生丰产林仍受氮素限制,灌水和施氮是提高毛白杨速生丰产林生长量的重要栽培措施.(图2表6参41)
This study aims to explore the effects of irrigation and nitrogen application on the stoichiometric characteristics of carbon(C), nitrogen(N), and phosphorus(P) in various organs of Populus tomentosa Carrière during dormancy. The fastgrowing, high-yield P. tomentosa clonal S86 plantation with a 10-year continuous irrigation and nitrogen application rate was selected. The soil water content was adjusted to 45%, 60%, and 75% of field capacity by irrigation and the nitrogen application was 0, 101.6, 203.2, and 304.8 kg/hm~2. There were a total of 12 treatments with three replicates. At the end of October 2016,when the tree growth entered the dormant period, a sample tree was selected from each plot and felled to sample roots,stems, and branches for the determination of C, N, and P content.(1) The content of C and P in the stems and branches of P.tomentosa was significantly higher than that in the roots(P < 0.05); the content of N differed significantly among organs and could be ranked as branch > root > stem. The C:N ratio was significantly different among organs and could be ranked as stem> root > branch; The C:P ratio was not significantly different among organs; The N:P ratio was significantly different among organs and could be ranked as branch > root > stem.(2) Irrigation had no significant effect on the C content in all organs.Nitrogen application significantly reduced the root C content; irrigation, nitrogen application, and their interaction significantly affected the N content of root, stem, and branch. Irrigation and nitrogen application significantly increased the N content of various organs, and the N content of various organs of P. tomentosa increased significantly under high water content and a high nitrogen application rate.(3) Irrigation and nitrogen application significantly reduced the C:N ratio in various organs of P. tomentosa, but had no significant effect on the C:P ratio and significantly increased the N:P ratio. Irrigation and nitrogen application promote N uptake, thereby increasing the N content of all organs. Irrigation and nitrogen application reduce the C:N ratio and increase the growth rate of P. tomentosa; although this area is suitable for P. tomentosa, fast-growing and high-yield timber plantation may still be restricted by N. Irrigation and nitrogen application are two important cultivation measures to improve the timber yield of P. tomentosa plantations.
This study aims to explore the effects of irrigation and nitrogen application on the stoichiometric characteristics of carbon(C), nitrogen(N), and phosphorus(P) in various organs of Populus tomentosa Carrière during dormancy. The fastgrowing, high-yield P. tomentosa clonal S86 plantation with a 10-year continuous irrigation and nitrogen application rate was selected. The soil water content was adjusted to 45%, 60%, and 75% of field capacity by irrigation and the nitrogen application was 0, 101.6, 203.2, and 304.8 kg/hm~2. There were a total of 12 treatments with three replicates. At the end of October 2016,when the tree growth entered the dormant period, a sample tree was selected from each plot and felled to sample roots,stems, and branches for the determination of C, N, and P content.(1) The content of C and P in the stems and branches of P.tomentosa was significantly higher than that in the roots(P < 0.05); the content of N differed significantly among organs and could be ranked as branch > root > stem. The C:N ratio was significantly different among organs and could be ranked as stem> root > branch; The C:P ratio was not significantly different among organs; The N:P ratio was significantly different among organs and could be ranked as branch > root > stem.(2) Irrigation had no significant effect on the C content in all organs.Nitrogen application significantly reduced the root C content; irrigation, nitrogen application, and their interaction significantly affected the N content of root, stem, and branch. Irrigation and nitrogen application significantly increased the N content of various organs, and the N content of various organs of P. tomentosa increased significantly under high water content and a high nitrogen application rate.(3) Irrigation and nitrogen application significantly reduced the C:N ratio in various organs of P. tomentosa, but had no significant effect on the C:P ratio and significantly increased the N:P ratio. Irrigation and nitrogen application promote N uptake, thereby increasing the N content of all organs. Irrigation and nitrogen application reduce the C:N ratio and increase the growth rate of P. tomentosa; although this area is suitable for P. tomentosa, fast-growing and high-yield timber plantation may still be restricted by N. Irrigation and nitrogen application are two important cultivation measures to improve the timber yield of P. tomentosa plantations.
引文
1 Elser JJ,Sterner RW,Gorokhova E,Fagan WF,Markow TA,Cotner JB,Harrison JF,Hobbie SE,Odell GM,Weider LJ.Biological stoichiometry from genes to ecosystems[J].Ecol Lett,2000,3:540-550
2 Agren GI,Weih M.Plant stoichiometry at different scales:element concentration patterns reflect environment more than genotype[J].New Phytol,2012,194(4):944-952
3 Elser JJ,Fagan WF,Kerkhoff AJ,Swenson NG,Enquist BJ.Biological stoichiometry of plant production:metabolism,scaling and ecological response to global change[J].New Phytol,2010,186:593-608
4 Sterner RW,Elser JJ.Ecological Stoichiometry:the Biology of Elements from Molecules to the Biosphere[M].Princeton:Princeton University Press,2002:225-226
5李芳菲.刺槐人工林C、N、P分配格局及其化学计量特征研究[D].杨凌:西北农林科技大学,2015[Li FF.The distribution pattern of carbon,nitrogen and phosphorus and the stoichiometry characteristics of Robinia pseudoacacia forest[D].Yangling:Northwest A&F University,2015]
6高宗宝,王洪义,吕晓涛,王正文.氮磷添加对呼伦贝尔草甸草原4种优势植物根系和叶片C:N:P化学计量特征的影响[J].生态学杂志,2017,36(1):80-88[Gao ZB,Wang HY,Lv XT,Wang ZW.Effects of nitrogen and phosphorus addition on C:N:P stoichiometry in roots and leaves of four dominant plant species in a meadow steppe of Hulunbuir[J].Chin J Ecol,2017,36(1):80-88]
7?gren GI.The C:N:P stoichiometry of autotrophs-theory and observations[J].Ecol Lett,2004,7(3):185-191
8张珂,何明珠,李新荣,谭会娟,高艳红,李刚,韩国君,吴杨杨.阿拉善荒漠典型植物叶片碳、氮、磷化学计量特征[J].生态学报,2014,34(22):6538-6547[Zhang K,He MZ,Li XR,Tan HJ,Gao YH,Li G,Han GJ,Wu YY.Foliar carbon,nitrogen and phosphorus stoichiometry of typical desert plants across the Alashan Desert[J].Acta Ecol Sin,2014,34(22):6538-6547]
9 Danger M,Gessner MO,B?rlocher F.Ecological stoichiometry of aquatic fungi:current knowledge and perspectives[J].Fung Ecol,2016,19:100-111
10 Aerts R,Chapin FSⅢ.The mineral nutrition of wild plants revisited:a re-evaluation of processes and patterns[J].Adv Ecol Res,2000,30(8):1-67
11章广琦,张萍,陈云明,彭守璋,曹扬.黄土丘陵区刺槐与油松人工林生态系统生态化学计量特征[J].生态学报,2018,38(4):1-9[Zhang GQ,Zhang P,Chen YM,Peng SZ,Cao Y.Stoichiometric characteristics of Robinia pseudoacacia and Pinus tabuliformis plantation ecosystems in the Loess hilly-gully region,China[J].Acta Ecol Sin,2018,38(4):1-9]
12陈婵,王光军,赵月,周国新,李栎,高吉权.会同杉木器官间C、N、P化学计量比的季节动态与异速生长关系[J].生态学报,2016,36(23):7614-7623[Chen C,Wang GJ,Zhao Y,Zhou GX,Li L,Gao JQ.Seasonal dynamics and allometric growth relationships of C,N and Pstoichiometry in the organs of Cunninghamia lanceolata from Huitong[J].Acta Ecol Sin,2016,36(23):7614-7623]
13赵亚芳,徐福利,王渭玲,王国兴,陈钦程,赵海燕,马亚娟.华北落叶松针叶碳、氮、磷含量及化学计量比的季节变化[J].植物营养与肥料学报,2015,21(5):1328-1335[Zhao YF,Xu FL,Wang WL,Wang GX,Cheng QC,Zhao HY,Ma YJ.Seasonal variations of leaf C,N,Pcontents and stoichiometry of Larix principis-rupprechtii[J].J Plant Nutr Fertil,2015,21(5):1328-1335]
14王凯,李依杭,姜涛,姚宏佳,詹舒婷.干旱胁迫对杨树幼苗氮磷化学计量特征及分配格局的影响[J].生态学杂志,2017,36(11):3116-3122[Wang K,Li YH,Jiang T,Yao HJ,Zhan ST.Effects of drought stress on N and P stoichiometry and allocation of poplar seedlings[J].Chin JEcol,2017,36(11):3116-3122]
15 Zhang QF,Xie JS,Lyu M,Xiong DC,Wang J,Chen YM,Li YQ,Wang MK,Yang YS.Short-term effects of soil warming and nitrogen addition on the N:P stoichiometry of Cunninghamia lanceolate in subtropical regions[J].Plant Soil,2017,411:395-407
16徐福利,赵亚芳,张潘,王渭玲,于钦民,王伟东,王国兴.施肥对华北落叶松人工林根茎叶中氮磷含量的影响[J].林业科学,2014,50(3):139-143[Xu FL,Zhao YF,Zhang P,Wang WL,Yu QM,Wang WD,Wang GX.Effects of fertilization on nitrogen and phosphorus content in roots,stems and leaves of Larix principis-rupprechtii plantation[J].Sci Silv Sin,2014,50(3):139-143]
17孙彩丽,肖列,李鹏,薛萐,刘国彬.氮素添加和干旱胁迫下白羊草碳氮磷化学计量特征[J].植物营养与肥料学报,2017,23(4):1120-1127[Sun CL,Xiao L,Li P,Xue J,Liu GB.Effects of nitrogen addition and drought stress on carbon,nitrogen and phosphorus stoichiometry of Bothriochloa ischaemumm[J].J Plant Nutr Fertil,2017,23(4):1120-1127]
18李曼,靳冰洁,钟全林,马玉珠,卢宏典,郭炳桥,郑媛,程栋梁.氮磷添加对刨花楠幼苗叶片N、P化学计量特征的影响[J].应用与环境生物学报,2016,22(2):285-291[Li M,Jin BJ,Zhong QL,Ma YZ,Lu HD,Guo BQ,Zheng Y,Cheng DL.Effect of nitrogen and phosphorus fertilization on leaf N and P stoichiometric characteristics of Machilus pauhoi seedlings[J].Chin J Appl Environ Biol,2016,22(2):285-291]
19韦安泰.毛白杨苗木营养特性及氮源和氮磷钾配比施肥效应研究[D].北京:北京林业大学,2008[Wei AT.Seedling nutrient characteristic and effect of nitrogen source and NPK mixed fertilizers on Populus tomentosa[D].Beijing:Beijing Forestry University,2008]
20 Zhao Q,Zeng DH.Diagnosis methods of N and P limitation to tree growth:a review[J].Chin J Ecol,2009,28(1):122-128
21罗盼盼,聂立水,辛颖,孙兆地,任忠秀,韦丹.水氮耦合对三倍体毛白杨无性系BT17叶片养分的影响[J].应用生态学报,2012,23(11):2949-2954[Luo PP,Nie LS,Xin Y,Sun ZD,Ren ZX,Wei D.Effects of water-nitrogen coupling on leaf nutrient contents of triploid Populus tomentosa clone BT17[J].Chin J Appl Ecol,2012,23(11):2949-2954]
22任忠秀,聂立水,张强,辛颖,宋莲君,罗盼盼.水氮耦合下毛白杨无性系材积生长规律及品种选择[J].中南林业科技大学学报,2011,31(8):187-193[Ren ZX,Nie LS,Zhang Q,Xin Y,Song LJ,Luo PP.Stem volume current annual growth rhythm of four Populus tomentosa clones under water-nitrogen coupling and variety selection[J].J Central S Univ For Technol,2011,31(8):187-193]
23任忠秀,聂立水,张志毅,张强,宋连君,李赟.水氮耦合效应对毛白杨无性系人工林林分蓄积量与经济效益的影响[J].北京林业大学学报,2012,34(1):25-31[Ren ZX,Nie LS,Zhang ZY,Zhang Q,Song LJ,Li Y.Coupling effects of water and nitrogen on the stand volume and economic benefit of Populus tomentosa clone plantations[J].J Beijing For Univ,2012,34(1):25-31]
24王文全,李秀江,贾玉彬,张振江,华章保,刘素萍.沙地毛白杨速生丰产林节水灌溉的研究[J].河北农业大学学报,2001,24(1):33-37[Wang WQ,Li XJ,Jia YB,Zhang ZJ,Hua ZB,Liu SP.Study on water saving irrigation in intensive plantation of Populus tomentosa on sandy land[J].J Agric Univ Hebei,2001,24(1):33-37]
25刘寿坡,朱占学,张瑛.毛白杨人工林施肥效应的初步研究[J].土壤通报,1988(5):219-222[Liu SP,Zhu ZX,Zhang Y.Preliminary study on fertilization effect of Populus tomentosa plantation[J].Chin J Soil Sci,1988(5):219-222]
26鲍士旦.土壤农化分析[M].北京:中国农业出版社,2000[Bao SD.Soil Assay on Properties of Agro-Chemistry[M].Beijing:China Agricultural University Press,2000]
27赵月.施N肥对会同杉木人工林C:N:P生态化学计量特征的影响[D].长沙:中南林业科技大学,2016[Zhao Y.Effects of N fertilization on C:N:P ecological stoichiometry of Chinese fir in Huitong[D].Changsha:Central South University of Forestry and Technology,2016]
28 Baldwin DS,Rees GN,Mitchell AM,Watson G,Williams J.The shortterm effects of salinization on anaerobic nutrient cycling and microbial community str ucture in sediment from a freshwater wetland[J].Wetlands,2006,26(2):455-464.
29史军辉,马学喜,刘茂秀,马学喜.胡杨(Populus euphratica)枝叶根化学计量特征[J].中国沙漠,2017,37(1):109-115[Shi JH,Ma XX,Liu MX,Ma XX.Stoichiometric characteristics of breach,leaf,root in Populus euphratica with different forest age[J].J Desert Res,37(1):109-115]
30郑跃芳,钟全林,程栋梁,张中瑞,邓兴宇.亚热带4种林木幼苗的碳氮磷含量及其化学计量比特征[J].应用与环境生物学报,2017,23(2):379-383[Zheng YF,Zhong QL,Cheng DL,Zhang ZR,Deng XY.Carbon,nitrogen,and phosphorus contents in four tree seedlings of subtropical plants and their stoichiometric ratio characteristics[J].Chin J Appl Environ Biol,2017,23(2):379-383]
31周国新,王光军,李栎,高吉权,何丹,杜昕.杉木根、枝和叶的C、N、P生态化学计量特征[J].湖南林业科技,2015,42(1):15-18[Zhou XG,Wang GH,Li L,Gao JQ,He D,Du,X.C,N,P stoichiometry characteristic of Chinese fir root,branch and leaf[J].Hunan Fore Sci Technol,2015,42(1):15-18]
32沈善敏,宇万太,张璐,廉鸿志.杨树主要营养元素内循环及外循环研究Ⅰ.落叶前后各部位养分浓度及养分贮量变化[J].应用生态学报,1992,3(4):296-301[Sheng SM,Yu WT,Zhang L,Lian HZ.Studies on the internal and external circulation of main nutrients in poplars I.Changes in nutrient concentration and nutrient storage of various parts before and after defoliation[J].Chin J Appl Ecol,1992,3(4):296-301]
33 Koerselman W,Meuleman AFM.The vegetation N:P ratio:a new tool to detect the nature of nutrient limitation[J].J Appl Ecol,1996,33(6):1441-1450
34张迪,陈祖旭,黄世能.施肥对猴耳环幼苗生长的影响[J].林业科学研究,2015,28(6):906-909[Zhang D,Cheng ZX,Huang SN.Effects of fertilization on growth of Archidendron clypearia seedlings[J].For Res,2015,28(6):906-909]
35 Marklein A,Houlton BZ.Nitrogen inputs accelerate phosphorus cycling rates across a wide variety of terrestrial ecosystems[J].New Phytol,2011,193(3):696-704
36 Fujita Y,Robroek BJM,Ruiter PCD,Heil GW,Wassen MJ.Increased N affects P uptake of eight grassland species:the role of root surface phosphatase activity[J].Oikos,2010,119(10):1665-1673.
37李化山,汪金松,法蕾,赵秀海.模拟氮沉降对油松幼苗生长的影响[J].应用与环境生物学报,2013,19(5):774-780[Li HS,Wang JS,Fa L,Zhao XH.Effects of simulated nitrogen deposition on seedling growth of Pinus tabulaeformis[J].Chin J Appl Environ Biol,2013,19(5):774-780]
38 Fan HB,Wu JP,Liu WF,Yuan YH,Hu L,Cai QK.Linkages of plant and soil C:N:P stoichiometry and their relationships to forest growth in subtropical plantations[J].Plant Soil,2015,392:127-138
39 Zhu JL,Bo HJ,Li X,Song LJ,Wang J,Nie LS,Tian J.Effects of soil water and nitrogen on the stand volume of four hybrid Populus tomentosa clones[J].Forests,2017,8(7):250
40?g ren GI.T he C:N:P stoich iomet r y of autot rophs-T heor y a nd observations[J].Ecol Lett,2004,7(3):185-191
41 Wu TG,Chen BF,Xiao Y H,Pan YJ,Chen Y,Xia o J H.Leaf stoichiometry of trees in three forest types in Pearl River Delta,South China[J].J Plant Ecol,2010,34(1):58-63
2 Agren GI,Weih M.Plant stoichiometry at different scales:element concentration patterns reflect environment more than genotype[J].New Phytol,2012,194(4):944-952
3 Elser JJ,Fagan WF,Kerkhoff AJ,Swenson NG,Enquist BJ.Biological stoichiometry of plant production:metabolism,scaling and ecological response to global change[J].New Phytol,2010,186:593-608
4 Sterner RW,Elser JJ.Ecological Stoichiometry:the Biology of Elements from Molecules to the Biosphere[M].Princeton:Princeton University Press,2002:225-226
5李芳菲.刺槐人工林C、N、P分配格局及其化学计量特征研究[D].杨凌:西北农林科技大学,2015[Li FF.The distribution pattern of carbon,nitrogen and phosphorus and the stoichiometry characteristics of Robinia pseudoacacia forest[D].Yangling:Northwest A&F University,2015]
6高宗宝,王洪义,吕晓涛,王正文.氮磷添加对呼伦贝尔草甸草原4种优势植物根系和叶片C:N:P化学计量特征的影响[J].生态学杂志,2017,36(1):80-88[Gao ZB,Wang HY,Lv XT,Wang ZW.Effects of nitrogen and phosphorus addition on C:N:P stoichiometry in roots and leaves of four dominant plant species in a meadow steppe of Hulunbuir[J].Chin J Ecol,2017,36(1):80-88]
7?gren GI.The C:N:P stoichiometry of autotrophs-theory and observations[J].Ecol Lett,2004,7(3):185-191
8张珂,何明珠,李新荣,谭会娟,高艳红,李刚,韩国君,吴杨杨.阿拉善荒漠典型植物叶片碳、氮、磷化学计量特征[J].生态学报,2014,34(22):6538-6547[Zhang K,He MZ,Li XR,Tan HJ,Gao YH,Li G,Han GJ,Wu YY.Foliar carbon,nitrogen and phosphorus stoichiometry of typical desert plants across the Alashan Desert[J].Acta Ecol Sin,2014,34(22):6538-6547]
9 Danger M,Gessner MO,B?rlocher F.Ecological stoichiometry of aquatic fungi:current knowledge and perspectives[J].Fung Ecol,2016,19:100-111
10 Aerts R,Chapin FSⅢ.The mineral nutrition of wild plants revisited:a re-evaluation of processes and patterns[J].Adv Ecol Res,2000,30(8):1-67
11章广琦,张萍,陈云明,彭守璋,曹扬.黄土丘陵区刺槐与油松人工林生态系统生态化学计量特征[J].生态学报,2018,38(4):1-9[Zhang GQ,Zhang P,Chen YM,Peng SZ,Cao Y.Stoichiometric characteristics of Robinia pseudoacacia and Pinus tabuliformis plantation ecosystems in the Loess hilly-gully region,China[J].Acta Ecol Sin,2018,38(4):1-9]
12陈婵,王光军,赵月,周国新,李栎,高吉权.会同杉木器官间C、N、P化学计量比的季节动态与异速生长关系[J].生态学报,2016,36(23):7614-7623[Chen C,Wang GJ,Zhao Y,Zhou GX,Li L,Gao JQ.Seasonal dynamics and allometric growth relationships of C,N and Pstoichiometry in the organs of Cunninghamia lanceolata from Huitong[J].Acta Ecol Sin,2016,36(23):7614-7623]
13赵亚芳,徐福利,王渭玲,王国兴,陈钦程,赵海燕,马亚娟.华北落叶松针叶碳、氮、磷含量及化学计量比的季节变化[J].植物营养与肥料学报,2015,21(5):1328-1335[Zhao YF,Xu FL,Wang WL,Wang GX,Cheng QC,Zhao HY,Ma YJ.Seasonal variations of leaf C,N,Pcontents and stoichiometry of Larix principis-rupprechtii[J].J Plant Nutr Fertil,2015,21(5):1328-1335]
14王凯,李依杭,姜涛,姚宏佳,詹舒婷.干旱胁迫对杨树幼苗氮磷化学计量特征及分配格局的影响[J].生态学杂志,2017,36(11):3116-3122[Wang K,Li YH,Jiang T,Yao HJ,Zhan ST.Effects of drought stress on N and P stoichiometry and allocation of poplar seedlings[J].Chin JEcol,2017,36(11):3116-3122]
15 Zhang QF,Xie JS,Lyu M,Xiong DC,Wang J,Chen YM,Li YQ,Wang MK,Yang YS.Short-term effects of soil warming and nitrogen addition on the N:P stoichiometry of Cunninghamia lanceolate in subtropical regions[J].Plant Soil,2017,411:395-407
16徐福利,赵亚芳,张潘,王渭玲,于钦民,王伟东,王国兴.施肥对华北落叶松人工林根茎叶中氮磷含量的影响[J].林业科学,2014,50(3):139-143[Xu FL,Zhao YF,Zhang P,Wang WL,Yu QM,Wang WD,Wang GX.Effects of fertilization on nitrogen and phosphorus content in roots,stems and leaves of Larix principis-rupprechtii plantation[J].Sci Silv Sin,2014,50(3):139-143]
17孙彩丽,肖列,李鹏,薛萐,刘国彬.氮素添加和干旱胁迫下白羊草碳氮磷化学计量特征[J].植物营养与肥料学报,2017,23(4):1120-1127[Sun CL,Xiao L,Li P,Xue J,Liu GB.Effects of nitrogen addition and drought stress on carbon,nitrogen and phosphorus stoichiometry of Bothriochloa ischaemumm[J].J Plant Nutr Fertil,2017,23(4):1120-1127]
18李曼,靳冰洁,钟全林,马玉珠,卢宏典,郭炳桥,郑媛,程栋梁.氮磷添加对刨花楠幼苗叶片N、P化学计量特征的影响[J].应用与环境生物学报,2016,22(2):285-291[Li M,Jin BJ,Zhong QL,Ma YZ,Lu HD,Guo BQ,Zheng Y,Cheng DL.Effect of nitrogen and phosphorus fertilization on leaf N and P stoichiometric characteristics of Machilus pauhoi seedlings[J].Chin J Appl Environ Biol,2016,22(2):285-291]
19韦安泰.毛白杨苗木营养特性及氮源和氮磷钾配比施肥效应研究[D].北京:北京林业大学,2008[Wei AT.Seedling nutrient characteristic and effect of nitrogen source and NPK mixed fertilizers on Populus tomentosa[D].Beijing:Beijing Forestry University,2008]
20 Zhao Q,Zeng DH.Diagnosis methods of N and P limitation to tree growth:a review[J].Chin J Ecol,2009,28(1):122-128
21罗盼盼,聂立水,辛颖,孙兆地,任忠秀,韦丹.水氮耦合对三倍体毛白杨无性系BT17叶片养分的影响[J].应用生态学报,2012,23(11):2949-2954[Luo PP,Nie LS,Xin Y,Sun ZD,Ren ZX,Wei D.Effects of water-nitrogen coupling on leaf nutrient contents of triploid Populus tomentosa clone BT17[J].Chin J Appl Ecol,2012,23(11):2949-2954]
22任忠秀,聂立水,张强,辛颖,宋莲君,罗盼盼.水氮耦合下毛白杨无性系材积生长规律及品种选择[J].中南林业科技大学学报,2011,31(8):187-193[Ren ZX,Nie LS,Zhang Q,Xin Y,Song LJ,Luo PP.Stem volume current annual growth rhythm of four Populus tomentosa clones under water-nitrogen coupling and variety selection[J].J Central S Univ For Technol,2011,31(8):187-193]
23任忠秀,聂立水,张志毅,张强,宋连君,李赟.水氮耦合效应对毛白杨无性系人工林林分蓄积量与经济效益的影响[J].北京林业大学学报,2012,34(1):25-31[Ren ZX,Nie LS,Zhang ZY,Zhang Q,Song LJ,Li Y.Coupling effects of water and nitrogen on the stand volume and economic benefit of Populus tomentosa clone plantations[J].J Beijing For Univ,2012,34(1):25-31]
24王文全,李秀江,贾玉彬,张振江,华章保,刘素萍.沙地毛白杨速生丰产林节水灌溉的研究[J].河北农业大学学报,2001,24(1):33-37[Wang WQ,Li XJ,Jia YB,Zhang ZJ,Hua ZB,Liu SP.Study on water saving irrigation in intensive plantation of Populus tomentosa on sandy land[J].J Agric Univ Hebei,2001,24(1):33-37]
25刘寿坡,朱占学,张瑛.毛白杨人工林施肥效应的初步研究[J].土壤通报,1988(5):219-222[Liu SP,Zhu ZX,Zhang Y.Preliminary study on fertilization effect of Populus tomentosa plantation[J].Chin J Soil Sci,1988(5):219-222]
26鲍士旦.土壤农化分析[M].北京:中国农业出版社,2000[Bao SD.Soil Assay on Properties of Agro-Chemistry[M].Beijing:China Agricultural University Press,2000]
27赵月.施N肥对会同杉木人工林C:N:P生态化学计量特征的影响[D].长沙:中南林业科技大学,2016[Zhao Y.Effects of N fertilization on C:N:P ecological stoichiometry of Chinese fir in Huitong[D].Changsha:Central South University of Forestry and Technology,2016]
28 Baldwin DS,Rees GN,Mitchell AM,Watson G,Williams J.The shortterm effects of salinization on anaerobic nutrient cycling and microbial community str ucture in sediment from a freshwater wetland[J].Wetlands,2006,26(2):455-464.
29史军辉,马学喜,刘茂秀,马学喜.胡杨(Populus euphratica)枝叶根化学计量特征[J].中国沙漠,2017,37(1):109-115[Shi JH,Ma XX,Liu MX,Ma XX.Stoichiometric characteristics of breach,leaf,root in Populus euphratica with different forest age[J].J Desert Res,37(1):109-115]
30郑跃芳,钟全林,程栋梁,张中瑞,邓兴宇.亚热带4种林木幼苗的碳氮磷含量及其化学计量比特征[J].应用与环境生物学报,2017,23(2):379-383[Zheng YF,Zhong QL,Cheng DL,Zhang ZR,Deng XY.Carbon,nitrogen,and phosphorus contents in four tree seedlings of subtropical plants and their stoichiometric ratio characteristics[J].Chin J Appl Environ Biol,2017,23(2):379-383]
31周国新,王光军,李栎,高吉权,何丹,杜昕.杉木根、枝和叶的C、N、P生态化学计量特征[J].湖南林业科技,2015,42(1):15-18[Zhou XG,Wang GH,Li L,Gao JQ,He D,Du,X.C,N,P stoichiometry characteristic of Chinese fir root,branch and leaf[J].Hunan Fore Sci Technol,2015,42(1):15-18]
32沈善敏,宇万太,张璐,廉鸿志.杨树主要营养元素内循环及外循环研究Ⅰ.落叶前后各部位养分浓度及养分贮量变化[J].应用生态学报,1992,3(4):296-301[Sheng SM,Yu WT,Zhang L,Lian HZ.Studies on the internal and external circulation of main nutrients in poplars I.Changes in nutrient concentration and nutrient storage of various parts before and after defoliation[J].Chin J Appl Ecol,1992,3(4):296-301]
33 Koerselman W,Meuleman AFM.The vegetation N:P ratio:a new tool to detect the nature of nutrient limitation[J].J Appl Ecol,1996,33(6):1441-1450
34张迪,陈祖旭,黄世能.施肥对猴耳环幼苗生长的影响[J].林业科学研究,2015,28(6):906-909[Zhang D,Cheng ZX,Huang SN.Effects of fertilization on growth of Archidendron clypearia seedlings[J].For Res,2015,28(6):906-909]
35 Marklein A,Houlton BZ.Nitrogen inputs accelerate phosphorus cycling rates across a wide variety of terrestrial ecosystems[J].New Phytol,2011,193(3):696-704
36 Fujita Y,Robroek BJM,Ruiter PCD,Heil GW,Wassen MJ.Increased N affects P uptake of eight grassland species:the role of root surface phosphatase activity[J].Oikos,2010,119(10):1665-1673.
37李化山,汪金松,法蕾,赵秀海.模拟氮沉降对油松幼苗生长的影响[J].应用与环境生物学报,2013,19(5):774-780[Li HS,Wang JS,Fa L,Zhao XH.Effects of simulated nitrogen deposition on seedling growth of Pinus tabulaeformis[J].Chin J Appl Environ Biol,2013,19(5):774-780]
38 Fan HB,Wu JP,Liu WF,Yuan YH,Hu L,Cai QK.Linkages of plant and soil C:N:P stoichiometry and their relationships to forest growth in subtropical plantations[J].Plant Soil,2015,392:127-138
39 Zhu JL,Bo HJ,Li X,Song LJ,Wang J,Nie LS,Tian J.Effects of soil water and nitrogen on the stand volume of four hybrid Populus tomentosa clones[J].Forests,2017,8(7):250
40?g ren GI.T he C:N:P stoich iomet r y of autot rophs-T heor y a nd observations[J].Ecol Lett,2004,7(3):185-191
41 Wu TG,Chen BF,Xiao Y H,Pan YJ,Chen Y,Xia o J H.Leaf stoichiometry of trees in three forest types in Pearl River Delta,South China[J].J Plant Ecol,2010,34(1):58-63
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