太阳辐射减弱对水稻光合生理特性和中微量元素积累的影响

doi:10.13287/j.1001-9332.202104.030

应用生态学报 ›› 2021, Vol. 32 ›› Issue (4): 1345-1351.doi: 10.13287/j.1001-9332.202104.030

太阳辐射减弱对水稻光合生理特性和中微量元素积累的影响

方笑堃^1,2, 陈志炜¹, 程兆康¹, 姜海波³, 邱丹³, 罗小三^1*

¹南京信息工程大学应用气象学院农业资源与环境系/江苏省农业气象重点实验室, 南京 210044;
²福建省泉州市气象局, 福建泉州 362000;
³江苏省耕地质量与农业环境保护站, 南京 210036

收稿日期:2020-10-21 接受日期:2021-01-25 发布日期:2021-10-25
通讯作者: *E-mail: xsluo@nuist.edu.cn
作者简介:方笑堃, 男, 1995年生, 硕士。主要从事农业气象研究。E-mail: xiaokun9518@163.com
基金资助:
国家自然科学基金项目(41471418)资助

Effects of reduced solar radiation on photosynthetic physiological characteristics and accumulation of secondary and micro elements in paddy rice.

FANG Xiao-kun^1,2, CHEN Zhi-wei¹, CHENG Zhao-kang¹, JIANG Hai-bo³, QIU Dan³, LUO Xiao-san^1*

¹Department of Agricultural Resources and Environment, School of Applied Meteorology, Nanjing University of Information Science and Technology/Jiangsu Key Laboratory of Agricultural Meteorology, Nanjing 210044, China;
²Quanzhou Meteorological Bureau, Quanzhou 362000, Fujian, China;
³Jiangsu Farmland Quality and Agricultural Environmental Protection Station, Nanjing 210036, China

Received:2020-10-21 Accepted:2021-01-25 Published:2021-10-25
Contact: *E-mail: xsluo@nuist.edu.cn
Supported by:
National Natural Science Foundation of China (41471418).

摘要/Abstract

摘要： 近年来雾霾等大气环境污染问题突出,气溶胶导致到达地表的太阳辐射强度降低,对农作物生长造成了较大影响。为了探讨太阳辐射强度降低对粮食作物生理特性和矿质元素营养的影响,本研究以‘南粳5055’水稻品种为供试材料,采用田间随机区组设计,通过不同程度遮光处理模拟弱光环境(CK,不遮光对照;Y₁、Y₂遮光率分别为19%、45%),研究了在水稻关键生育期(拔节期、抽穗期、灌浆期)内叶绿素含量(SPAD)、叶面积指数(LAI)、叶片净光合速率、产量和籽粒中、微量金属元素(Ca、Mg、Fe、Zn、Mn、Cu)含量的响应特征。结果表明: 全生育期内遮光处理抑制了水稻光合作用产物的合成,降低了叶面积指数;但在生育前期对叶绿素含量无显著影响,在生育后期则显著增加。两种遮光处理下水稻的千粒重较CK分别降低了14.4%和18.4%,结实率降低了4.3%和12.9%,从而导致水稻产量下降,且随着遮光程度增加,水稻减产率加大,产量分别下降了58.5%和66.4%。遮光处理籽粒糙米和颖壳中金属元素含量升高,尤其微量元素含量显著上升。可见,遮光对水稻生长产生了不利影响,最终使其减产,并使Cu、Mn等重金属元素含量增加,这可能造成污染风险进而对人体健康造成威胁,因此,太阳辐射减弱对作物产量和品质的影响需要综合评价。

关键词: 农作物, 气溶胶污染, 光合作用, 矿质元素, 重金属, 粮食品质安全

Abstract: Atmospheric haze pollution is a popular environmental issue in recent years. The aerosols reduce solar radiation reaching land surface, with consequences on the growth of crops. In order to examine the effects of low solar radiation intensity on the physiological characteristics and mineral nutrition of grain crops, the random designed field experiment of rice cultivar ‘Nanjing 5055’ planted under different shading degrees (CK, natural sunlight control; Y₁ and Y₂ were treatments with shading rates of 19% and 45%, respectively) were conducted. The response of chlorophyll content (SPAD), leaf area index (LAI), net photosynthetic rate of leaves, grain yields and secondary/micro element contents (Ca, Mg, Fe, Zn, Mn, Cu) in rice were measured during key growth stages (jointing, heading, and grain filling stages). Results showed that, shading treatments inhibited the synthesis of photosynthetic products and reduced the LAI during the whole growing period, but at the early stage it did not affect the chlorophyll content, which was significantly increased at the late growth stage. Compared with CK, the 1000-grain weight of rice was decreased by 14.4% and 18.4%, and seed setting rate was decreased by 4.3% and 12.9%, which resulted in rice yield reduction. With the increases of shading rates, rice yield was decreased by 58.5% and 66.4%, respectively. The nutrient concentrations, especially for the micro-elements, in brown rice and glume were increased. Shading had a negative effect on rice growth, which would eventually reduce the crop production. The higher contents of heavy metals such as Cu and Mn would be a pollution risk for human health. Therefore, the impacts of weakened solar radiation on quantity and quality of crops need comprehensive evaluation.

Key words: crops, aerosol pollution, photosynthesis, mineral element, heavy metal, staple food quality and safety

方笑堃, 陈志炜, 程兆康, 姜海波, 邱丹, 罗小三. 太阳辐射减弱对水稻光合生理特性和中微量元素积累的影响[J]. 应用生态学报, 2021, 32(4): 1345-1351.

FANG Xiao-kun, CHEN Zhi-wei, CHENG Zhao-kang, JIANG Hai-bo, QIU Dan, LUO Xiao-san. Effects of reduced solar radiation on photosynthetic physiological characteristics and accumulation of secondary and micro elements in paddy rice.[J]. Chinese Journal of Applied Ecology, 2021, 32(4): 1345-1351.

参考文献

[1] Glotfelty T, Zhang Y, Karamchandani P, et al. Changes in future air quality, deposition, and aerosol-cloud interactions under future climate and emission scenarios. Atmospheric Environment, 2016, 139: 176-191
[2] Wild M, Roesch A, Ammann C. Global dimming and brightening: Evidence and agricultural implications. CAB Reviews Perspectives in Agriculture Veterinary Science Nutrition and Natural Resources, 2012, 7, doi: 10.1079/PAVSNNR20127003
[3] Yan X, Shi ZW, Zhao JW, et al. Impact of aerosols and atmospheric particles on plant leaf proteins. Atmospheric Environment, 2014, 88: 115-122
[4] 邵思雅, 张晶, 周丽花, 等. 气溶胶直接辐射效应对全球陆地生态系统碳循环的影响. 自然资源学报, 2018, 33(1): 27-36 [Shao S-Y, Zhang J, Zhou L-H, et al. Impacts of aerosol direct radiative effect on carbon cycle in global terrestrial ecosystem. Journal of Natural Resources, 2018, 33(1): 27-36]
[5] Zhang TY, Li T, Yue X, et al. Impacts of aerosol pollutant mitigation on lowland rice yields in China. Environmental Research Letters, 2017, 12: 104003
[6] Xu Y, Nadine U, Kandice H, et al. Ozone and haze pollution weakens net primary productivity in China. Atmospheric Chemistry and Physics, 2017, 17: 6073-6089
[7] Tambo E, Wang DQ, Zhou XN. Tackling air pollution and extreme climate changes in China: Implementing the Paris climate change agreement. Environment International, 2016, 95: 152-156
[8] 潘月鹏, 孙扬, 贾琳, 等. 大气霾污染对农业生产的可能影响. 农业环境科学学报, 2014, 33(11): 2279-2280 [Pan Y-P, Sun Y, Jia L, et al. Potential effects of haze pollution on agriculture in China. Journal of Agro-Environment Science, 2014, 33(11): 2279-2280]
[9] Tie XX, Huang RJ, Dai WT, et al. Effect of heavy haze and aerosol pollution on rice and wheat productions in China. Scientific Reports, 2016, 6: 29612
[10] Zhao FJ, Shewry PR. Recent developments in modifying crops and agronomic practice to improve human health. Food Policy, 2011, 36: S94-S101
[11] 赵方杰, 谢婉滢, 汪鹏. 土壤与人体健康. 土壤学报, 2020, 57(1): 1-11 [Zhao F-J, Xie W-Y, Wang P. Soil and human health. Acta Pedologica Sinica, 2020, 57(1): 1-11]
[12] Luo XS, Bing HJ, Luo ZX, et al. Impacts of atmosphe-ric particulate matter pollution on environmental biogeochemistry of trace metals in soil-plant system: A review. Environmental Pollution, 2019, 255: 113138
[13] Banerjee T, Kumar M, Singh N. Aerosol, climate, and sustainability. Encyclopedia of the Anthropocene, 2018, 2: 419-428
[14] Latha R, Murthy BS, Lipi K, et al. Absorbing aerosols, possible implication to crop yield: A comparison between IGB stations. Aerosol and Air Quality Research, 2017, 17: 693-705
[15] Zhang T, Li T, Yue X, et al. Impacts of aerosol pollutant mitigation on lowland rice yields in China. Environmental Research Letters, 2017, 12: 104003
[16] Burney J, Ramanathan V. Recent climate and air pollution impacts on Indian agriculture. Proceedings of the National Academy of Sciences of the United States of America, 2014, 111: 16319-16324
[17] 郑有飞, 冯妍, 麦博儒, 等. 太阳辐射减弱对冬小麦叶片光合作用、膜脂过氧化及同化物累积的影响. 农业环境科学学报, 2011, 30(7): 1267-1275 [Zheng Y-F, Feng Y, Mai B-R, et al. Effect of reduced solar irradiance on leaf photosynthesis, membrane lipid peroxi-dation, and photosynthate accumulation of winter wheat. Journal of Agro-Environment Science, 2011, 30(7): 1267-1275]
[18] 郑有飞, 石茗化, 吴荣军, 等. 遮阴和臭氧浓度增加对冬小麦叶片光合作用的影响. 农业环境科学学报, 2013, 32(10): 1925-1933 [Zheng Y-F, Shi M-H, Wu R-J, et al. Effect of elevated O₃ concentration and shading on photosynthesis of winter wheat’s leaves. Journal of Agro-Environment Science, 2013, 32(10): 1925-1933]
[19] 王丽伟, 李岩, 辛国凤, 等. 不同比例红蓝光对番茄幼苗生长和光合作用的影响. 应用生态学报, 2017, 28(5): 1595-1602 [Wang L-W, Li Y, Xin G-F, et al. Effects of different proportions of red and blue light on the growth and photosynthesis of tomato seedlings. Chinese Journal of Applied Ecology, 2017, 28(5): 1595-1602]
[20] Li HW, Jiang D, Wollenweber B, et al. Effects of sha-ding on morphology, physiology and grain yield of winter wheat. European Journal of Agronomy, 2010, 33: 267-275
[21] 郭翠花, 高志强, 苗果园. 花后遮阴对小麦旗叶光合特性及籽粒产量和品质的影响. 作物学报, 2010, 36(4): 673-679 [Guo C-H, Gao Z-Q, Miao G-Y. Effect of shading at post flowering on photosynthetic characte-ristics of flag leaf and response of grain yield and quality to shading in wheat. Acta Agronomica Sinca, 2010, 36(4): 673-679]
[22] 杜彦修, 季新, 张静, 等. 弱光对水稻生长发育影响研究进展. 中国生态农业学报, 2013, 21(11): 1307-1317 [Du Y-X, Ji X, Zhang J, et al. Research progress on the impacts of low light intensity on rice growth and development. Chinese Journal of Eco-Agriculture, 2013, 21(11): 1307-1317]
[23] 林文雄, 李忠, 陈军, 等. 水稻籽粒灌浆的发育遗传与分子生态特性研究. 中国生态农业学报, 2011, 19(6): 1237-1242 [Lin W-X, Li Z, Chen J, et al. Developmental genetic and molecular ecological properties of rice (Oryza sativa L.) grain filling. Chinese Journal of Eco-Agriculture, 2011, 19(6): 1237-1242]
[24] 董明辉, 惠锋, 顾俊荣, 等. 灌浆期不同光强对水稻不同粒位籽粒品质的影响. 中国生态农业学报, 2013, 21(2): 164-170 [Dong M-H, Hui F, Gu J-R, et al. Effect of light intensity on grain quality of rice at different spike positions during grain-filling stage. Chinese Journal of Eco-Agriculture, 2013, 21(2): 164-170]
[25] 王云霞, 杨连新. 水稻品质对主要气候变化因子的响应. 农业环境科学学报, 2020, 39(4): 822-833 [Wang Y-X, Yang L-X. Response of rice quality to major climate change factors. Journal of Agro-Environment Science, 2020, 39(4): 822-833]
[26] 任万军, 杨文钰, 徐精文, 等. 弱光对水稻籽粒生长及品质的影响. 作物学报, 2003, 29(5): 785-790 [Ren W-J, Yang W-Y, Xu J-W, et al. Effect of low light on grains growth and quality in rice. Acta Agrono-mica Sinca, 2003, 29(5): 785-790]
[27] 王明, 蒋卫杰, 余宏军. 弱光逆境对植株生理特性的影响及其调控措施. 内蒙古农业大学学报: 自然科学版, 2007, 28(3): 204-209 [Wang M, Jiang W-J, Yu H-J. Effect of low light stress on plant physiology and its control measures. Journal of Inner Mongolia Agricultural University: Natural Science, 2007, 28(3): 204-209]
[28] 胡霭堂. 植物营养学. 北京: 中国农业大学出版社, 2003 [Hu A-T. Plant Nutrition. Beijing: China Agricultural University Press, 2003]
[29] White PJ, Broadley MR. Biofortification of crops with seven mineral elements often lacking in human diets: Iron, zinc, copper, calcium, magnesium, selenium and iodine. New Phytologist, 2009, 182: 49-84
[30] Maret W, Sandstead HH. Zinc requirements and the risks and benefits of zinc supplementation. Journal of Trace Elements in Medicine and Biology, 2006, 20: 3-18
[31] 景立权, 户少武, 卢琦, 等. 阴晴天条件下高CO₂浓度对杂交稻光合作用影响的FACE研究. 应用生态学报, 2019, 30(3): 884-892 [Jing L-Q, Hu S-W, Lu Q, et al. Effects of elevated atmospheric CO₂ concentration on photosynthesis of hybrid rice varieties in cloudy and sunny days: A FACE study. Chinese Journal of Applied Ecology, 2019, 30(3): 884-892]
[32] Terzaghi E, Wild E, Zacchello G, et al. Forest filter effect: Role of leaves in capturing/releasing air particulate matter and its associated PAHs. Atmospheric Environment, 2013, 74: 378-384
[33] Luo XS, Zhang D, Hu ZH, et al. Effects of elevated carbon dioxide on metal transport in soil-crop system: Results from a field rice and wheat experiment. Journal of Soils and Sediments, 2019, 19: 3742-3748

太阳辐射减弱对水稻光合生理特性和中微量元素积累的影响

Effects of reduced solar radiation on photosynthetic physiological characteristics and accumulation of secondary and micro elements in paddy rice.

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

[1]	王复标, 杨小龙, 康华靖, 叶子飘. 不同环境条件下光合作用对光响应模型的研究进展 [J]. 应用生态学报, 2023, 34(7): 1995-2005.
[2]	张慧玉, 岳丹斐, 潘晓娇, 郝露露, 刘伟成, 郑春芳. 5-羟色胺在红树植物秋茄幼苗抗寒中的作用 [J]. 应用生态学报, 2023, 34(5): 1263-1271.
[3]	张鸿志, 张文娥, 樊卫国, 欧阳章维, 蔡虎, 郝振坤, 王瑞璞, 潘学军. 核桃/刺梨复合种植对刺梨生长、果实产量、品质和土壤性质的影响 [J]. 应用生态学报, 2023, 34(3): 699-707.
[4]	赵雷, 靳海笛, 曹晓云, 邓文辉, 杜灵娟. 六个东方铁筷子品种对干旱胁迫的生理响应及抗旱性评价 [J]. 应用生态学报, 2023, 34(10): 2644-2654.
[5]	时一平, 宋彦涛, 那木汗, 彭擎天, 吕林有, 申悦, 倩娜, 乌云娜. 羊草和紫花苜蓿人工草地光合特性 [J]. 应用生态学报, 2023, 34(10): 2655-2662.
[6]	冯嘉仪, 阮可瑾, 苏思宁, 张学平, 吴道铭, 万利鑫, 曾曙才. 构树的污泥适应性及养分和重金属吸收累积特征 [J]. 应用生态学报, 2022, 33(6): 1629-1638.
[7]	李晓天, 黄焯燊, 汤有千, 林昌权, 王春铭. 畜禽养殖废物中抗生素和重金属抗性基因的产生机制和控制方法研究进展 [J]. 应用生态学报, 2022, 33(6): 1719-1728.
[8]	吴磊, 孙奇, 赵骥民, 王德利, 张彦文. 花部重金属积累对植物-传粉昆虫互惠关系影响的研究进展 [J]. 应用生态学报, 2022, 33(5): 1429-1434.
[9]	刘梅朔, 王传宽, 全先奎. 兴安落叶松叶光合与氮代谢对环境变化响应的转录组分析 [J]. 应用生态学报, 2022, 33(4): 957-962.
[10]	董晓全, 邢鹤严, 张书源, 陈佳倩, 谢子曦, 邓文琪, 于珊, 吴道铭. 表施和混施污泥对团花根系生长的影响 [J]. 应用生态学报, 2022, 33(12): 3388-3394.
[11]	霍彦慧, 王美娥, 姜瑢, 陈卫平. 典型矿冶区周边土壤微生物功能特征及影响因素 [J]. 应用生态学报, 2022, 33(12): 3403-3409.
[12]	杨富玲, 石杨, 李斌, 杜志烨, 汪梦婷, 廖恒毅, 陈稷, 黄进. 植物根系分泌物在污染及沙化土壤修复中的应用现状与前景 [J]. 应用生态学报, 2021, 32(7): 2623-2632.
[13]	吴龙龙, 田仓, 张露, 黄晶, 朱练峰, 张均华, 曹小闯, 金千瑜. 稻田水氮氧环境因子对水稻生长发育、光合作用和氮利用的调控研究进展 [J]. 应用生态学报, 2021, 32(4): 1498-1508.
[14]	杨源通, 曾曙才, 冯嘉仪, 彭维新, 吴道铭. 施用污泥等废料对稀土矿废弃地土壤中麻疯树生长和元素吸收的影响 [J]. 应用生态学报, 2021, 32(2): 609-617.
[15]	唐敏, 张欣, 谭欣蕊, 刘燕, 王美仙. 锌在3种乔木中的积累及其亚细胞分布和化学形态 [J]. 应用生态学报, 2021, 32(12): 4298-4306.