生物质炭输入对盐胁迫下玉米幼苗生长和光合生理特征的影响

doi:10.7668/hbnxb.2017.04.029

摘要/Abstract

摘要： 为探讨生物质炭输入对盐胁迫下玉米幼苗生长和光合生理特性的影响，在温室以轻、中、重度盐渍化土壤模拟盐胁迫环境，设置0（CK），1%，2%，4%，8%生物质炭输入水平，进行玉米盆栽试验。对玉米幼苗生长、SPAD、净光合速率（Pn）等光合参数进行测定。结果表明：盐胁迫条件下玉米幼苗叶片叶绿素含量、光合作用等均受到抑制，进而影响玉米幼苗生长，干物质累积量、单株叶面积均显著降低。生物质炭输入能有效缓解盐胁迫对玉米幼苗生长的抑制。8%生物质炭输入水平对轻度盐胁迫下玉米幼苗生长的促进作用最显著：干物质累积量、SPAD、叶面积分别较对照增加116.22%，36.09%，107.67%，Pn、Tr、Gs分别较空白对照处理高76.60%，57.76%，17.33%；2%生物质炭水平下中度盐胁迫干物质累积量、SPAD、叶面积最高，分别较空白对照处理增加138.04%，18.92%，23.50%，Pn、Tr、Gs分别较空白对照处理高78.48%，55.56%，26.23%；8%生物质炭输入重度盐渍化土壤玉米幼苗干物质累积量、单株总叶面积最高，分别较空白对照处理高483.33%，92.32%，但SPAD在4%输入水平最高，较空白对照处理高71.50%。8%生物质炭输入重度盐渍化土壤玉米幼苗叶片Pn、Tr、Gs分别较CK处理高120.00%，88.78%，17.39%。生物质炭输入盐渍化土壤可通过自身特性增加土壤中矿质养分含量，改善土壤持水能力，提高植株叶绿素含量，促进光合作用，缓解盐胁迫对玉米幼苗生长的抑制作用，可应用于盐渍化土壤的改良。

关键词: 生物质炭, 灰漠土盐化土壤, 玉米幼苗, 光合生理

Abstract: In order to study the effect of biomass carbon input to corn seedling's growth and photosynthesis physiology feature which cultivated on saliferous gray desert soil. The saliferous soil with biomass carbon inputs were manipulated in the lab:there were three salinization levels in gray desert soil:level 1 was low salinization,level 2 was medium salinization and level 3 was high salinization,with different weight percentage of biomass carbon inputs:0(CK),1%,2%,4% and 8%. On these medium,the corn were cultivated to analyze the effect of biomass carbon input to corn seedling's growth and photosynthesis physiology features. The corn's growth,SPAD and Pn were investigated during the seedling stage. The results showed that:under the salt stress,contents of corn leaves' chlorophyll and photosynthesis metabolism were all suppressed,and these induced the inhibition of corn growth,dry matter accumulation and leaf area per plant. Biomass carbon inputs could release the suppression which induced by salt stress to corn growth.with 8% biomass carbon input,the level 1 saliferous soil had the best accelerate effects to corn's growth. Compared With CK,the dry matter accumulation,SPAD and leaf area were increased 116.22%,36.09% and 107.67% accordingly, Meanwhile,Pn,Tr and Gs were higher than CK 76.60%,57.76% and 17.33% accordingly, When 2% biomass carbon input to level 2 saliferous soil,compared with CK,the dry matter accumulation,SPAD and leaf area of corn were increased 138.04%,18.92% and 23.50% accordingly, Meanwhile,Pn,Tr and Gs were higher than CK 78.48%,55.56% and 26.23% accordingly,in the level 3 saliferous soil which have 8% biomass carbon input,corn had the highest dry matter accumulation and leaf area per plant,which were 483.33% and 92.32% compared with CK,in another hand,in level 3 saliferous soil which have 4%biomass carbon input,SPAD was highest,71.50%higher than CK.In level 3 saliferous soil which have 8% biomass carbon in-put,corn seedling leaves' Pn,Tr and Gs were higher than CK 120.00%,88.78% and 17.39% accordingly. The biomass carbon input to saliferous soil could induced the mineral content change of soil,improved the soil's water holding capacity; these could be good for chlorophyll content of plant and boosting the photosynthesis metabolism. Biomass carbon input to saliferous soil could release the plant's growth supression effect which induced by salt stress,and could be used in saliferous soi l amelioration.

Key words: Biomass carbon, Saliferous gray desert soil, Corn seedling, Photosynthesis physiology

中图分类号:

S513.01

刘易, 祁通, 孟阿静, 黄建, 冯耀祖, 王新勇. 生物质炭输入对盐胁迫下玉米幼苗生长和光合生理特征的影响[J]. 华北农学报, 2017, 32(4): 182-188. doi: 10.7668/hbnxb.2017.04.029.

LIU Yi, QI Tong, MENG Ajing, HUANG Jian, FENG Yaozu, WANG Xinyong. Effect Studying of Biomass Carbon Input to Growth and Photosynthetic Physiology Feature of Corn Seedling Cultivated on Saliferous Soil[J]. ACTA AGRICULTURAE BOREALI-SINICA, 2017, 32(4): 182-188. doi: 10.7668/hbnxb.2017.04.029.

http://www.hbnxb.net/CN/Y2017/V32/I4/182

参考文献

[1] 王继和,杨自辉,胡明贵,等.干旱区盐渍化土地综合治理技术研究[J].中国生态农业学报,2001,9(1):64-66.
[2] 新疆维吾尔自治区农业厅.新疆土壤[M].北京:科学出版社,1996:304-336.
[3] Parida A K,Das A B. Salt tolerance and salinity effects on plants:a review[J]. Ecotoxicology and Environmental Safety,2005,60(3):324-349.
[4] Lehmann J. A handful of carbon[J]. Nature,2007,447(10):143-144.
[5] 张瑞,杨昊,张芙蓉,等.生物竹炭改良崇明滩涂盐渍化土壤的试验研究[J].农业环境科学学报,2014,33(12):2211-2404.
[6] Chen C C,Lai C M,Lai W J. Effects of rice husk biochar amendment on soybearl seedling,soil properties and greenhouse gas emissions in a pot experiment[J]. Taiwanese Journal of Agricultural Chemistry and Food Science,2012,50(3):171-178.
[7] 郭伟,陈红霞,张庆忠,等.华北高产农田施用生物质炭对耕层土壤总氮和碱解氮含量的影响[J].生态环境学报,2011,20(3):425-428.
[8] 曲晶晶,郑金伟,郑聚锋,等.小麦秸秆生物质炭对水稻产量及晚稻氮素利用率的影响[J].生态与农村环境学报,2012,28(3):288-293.
[9] 张万杰,李志芳,张庆忠,等.生物质炭和氮肥配施对菠菜产量和硝酸盐含量的影响[J].农业环境科学学报,2011,30(10):1946-1952.
[10] Atkinson C J,Fitzgerald J D,Hipps N A. Potential meehanisms for aehieving agricultural benefits form biochar applieation to temperate soll:a review[J]. Plant and soll,2010,337(1):1-18.
[11] Glaser B,Haumaier L,Guggenbergerq,et al. Blaekearbonin50115:The use of benzene arboxylic aeids as speeific markers[J]. Organie Geoehemistry,1998,29:811-819.
[12] Anderson C R,Condron L M,Clough T J,et al. Biochar induced soil microbial community change:Implications for biogeochemical cycling of Carbon,Nitrogen and Phosphorus[J]. Pedobiologia,2011,54(5/6):309-320.
[13] 解钰,吴鹏豹,漆智平,等.王草产量和品质对生物炭浓度梯度的响应[J].广东农业科学,2012,39(11):133-135.
[14] 宋久洋,刘领,陈明灿,等.生物质炭施用对烤烟生长及光合特性的影响[J].河南科技大学学报:自然科学版,2014,35(4):68-73.
[15] 王丽渊,刘国顺,王林虹,等.生物质炭对烤烟干物质积累量及根际土壤理化性质的影响[J].华北农学报,2014,29(1):140-144.
[16] 李中阳,齐学斌,攀向阳,等.生物质炭对冬小麦产量,水分利用效率及根系形态的影响[J].农业工程学报,2015,31(13):119-124.
[17] Lehmann J,Pereira da silva J J,Steiner C,et al. Nutrient availability and leaching in an archaeological anthrosol and a ferralsol of the Central Amazon basin:fertilizer,manure and charcoal amendments[J]. Plant and Soil,2003,249(2):343-357.
[18] Steiner C,Teixeira W G,Lehmann J,et al. Long term effects of manure,charcoal and mineral fertilization on crop production and fertility on a highly weathered Central Amazonian upland soil[J]. Plant and Soil,2007,291(1/2):275-290.
[19] Topoliantz S,Ponge J F,Ballof S.Manioc peel and charcoal:apotential organic amendment for sustainable soil fertility in the tropics[J]. Biolgy and Feitility of Soils,2005,41(1):15-21.
[20] 王遵亲.中国盐渍土[M].北京:科学出版社,1993.
[21] 钟全林,程栋梁,胡松竹,等.刨花楠和华东润楠叶绿素含量分异特征及与净光合速率的关系[J].应用生态学报,2009,20(2):271-276.
[22] Bielinis E,Jozwiak W,Robakowski P.Modelling of the relationship between the SPAD values and photosy-nthetic pigments content in Quercus petraea and Prunus serotina leaves[J].Dendrobiology,2015,73:125-134.
[23] Uddling J,Gelang-alfredsson J,Piikki K,et al. Evaluating the relationship between leaf chlorophyⅡconcentration and SPAD-502 chlorophyⅡ meter readings[J]. Photosynthesis Research,2007,91(1):37-46.
[24] Yamamoto A,Nakamura T,Adu-gyamfi J J,et al. Relationship between chlorophyll content in leaves of sorghum and pigeonpea determined by extraction method and by chlorophyll meter(SPAD-502)[J]. Joumal of Plant Nutrition,2002,25(10):2295-2301.
[25] Brugnoli E,Lau T M. Effects of salinity on stomatal conductance,photosynthetic capacity,and Carbon isotope discrimination of salttolerant(Gossypium hirsutum L.)and salt-sensitive(Phaseolus vulgaris L.) C₃ non-halophytes[J]. Plant Physiology,1991,95(2):628-635.
[26] 薛焱,王迎春,王同智.濒危植物长叶红砂适应盐胁迫的生理生化机制研究[J].西北植物学报,2012,32(1):0136-0142.
[27] 张璐颖,文笑,林勇明,等.盐胁迫对台湾桤木幼苗光合作用和荧光特性的影响[J].福建林学院学报,2013,33(3):192-199.
[28] 邢庆振,郁松林,牛雅萍,等.盐胁迫对葡萄幼苗光合及叶绿素荧光特性的影响[J].干旱地区农业研究,2011,29(3):96-100.
[29] 洪森荣,尹明华.红芽芋.驯化苗对盐胁迫的光合及生理响应[J].西北植物学报,2013,33(12):2499-2506.
[30] Hoshida H,Tanaka Y,Hibino T,et al. Enhanced tolerance to salt stress in transgenic rice that overexpresses chloroplast glutamine synthetase[J]. Plant Molecular Biology,2000,43(1):103-111.
[31] 裘丽珍,黄有军,黄坚钦,等.不同耐盐性植物在盐胁迫下的生长与生理特性比较研究[J].浙江大学学报:农业与生命科学版,2006,32(4):420-427.
[32] Aro E M,Mccaffery S,Anderson J M. Photoinhibition and D1 protein degradation in Peas acclimated to different growth irradiances[J]. Plant Physiology,1993,103(3):835-843.
[33] 岳燕,林启美,郭维娜,等.不同土层加入生物质炭对盐分淋洗的影响[J].干旱地区农业研究,2015,33(3):63-67.
[34] 岳燕,郭维娜,林启美,等.加入不同量生物质炭盐渍化土壤盐分淋洗的差异与特征[J].土壤学报,2014,51(4):914-919.
[35] 杨艳丽,李秀军,陈国双,等.生物质炭与盐酸配施对苏打盐渍土理化性状的影响研究[J].土壤与作物,2015,4(3):113-119.

选择文件类型/文献管理软件名称

选择包含的内容