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Volume 39 Issue 7
Jul.  2024
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Article Contents
LI L, ZHANG M L, LIU L M, et al. Effects of Fertilizers Applied on Growth of Kandelia obovata Seedlings and Microbial Community in Soil [J]. Fujian Journal of Agricultural Sciences,2024,39(7):839−847 doi: 10.19303/j.issn.1008-0384.2024.07.011
Citation: LI L, ZHANG M L, LIU L M, et al. Effects of Fertilizers Applied on Growth of Kandelia obovata Seedlings and Microbial Community in Soil [J]. Fujian Journal of Agricultural Sciences,2024,39(7):839−847 doi: 10.19303/j.issn.1008-0384.2024.07.011

Effects of Fertilizers Applied on Growth of Kandelia obovata Seedlings and Microbial Community in Soil

doi: 10.19303/j.issn.1008-0384.2024.07.011
  • Received Date: 2023-09-28
  • Rev Recd Date: 2023-11-05
  • Available Online: 2024-05-08
  • Publish Date: 2024-07-28
  •   Objective  Effects of fertilizer type and application rate on the growth of Kandelia obovate seedlings as well as the microbial community in soil were studied.   Method   In a field experiment, K. obovate seedlings were planted on lots treated by 3 different organic fertilizers or an inorganic fertilizer at 4 application rates, along with no-fertilizer as control (CK). Plant height and leaf length, width, number, and chlorophyll content of the seedling in the autumn were determined. Composition of the microbial community in soil was detected by high-throughput sequencing based on 16S rRNA gene.   Result   On the lots applied with Zun Long Fertilizer at the rate of 9.74 g·kg−1, the seedlings, in comparison to those on CK, were 117.50% taller and had 51.15% longer, 63.34% wider, and 178.57% more leaves in 120 d. The microbial compositions in the soil at the lots applied with organic fertilizer, inorganic fertilizer, and CK differed significantly. In addition, there were more distinct species on the organic fertilizers-treated soil than on the others. The plant grew positively with the microbial α-diversity in soil treated with the organic fertilizers, but negatively in soil treated with the inorganic fertilizers. Moreover, the organic fertilization fostered proliferation of beneficial microbes, such as Actinobacteriota and genera Nitrospira, Nocardioides, and Limibaculum, which could synergistically promote the plant growth as well.  Conclusion  Application of organic fertilizer enhanced the growth of K. obovate as well as the microbial diversity of soil. On the other hand, inorganic fertilizer provided relatively limited benefits on the growth of the plants, yet considerably hindered the development of a healthy soil microbiome.
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  • [1]
    范航清, 王文卿. 中国红树林保育的若干重要问题 [J]. 厦门大学学报(自然科学版), 2017, 56(3):323−330.

    FAN H Q, WANG W Q. Some thematic issues for mangrove conservation in China [J]. Journal of Xiamen University (Natural Science), 2017, 56(3): 323−330. (in Chinese)
    [2]
    潘良浩, 史小芳, 曾聪, 等. 广西红树林的植物类型 [J]. 广西科学, 2018, 25(4):352−362.

    PAN L H, SHI X F, ZENG C, et al. The plant types of mangroves in Guangxi [J]. Guangxi Sciences, 2018, 25(4): 352−362. (in Chinese)
    [3]
    林鹏, 傅勤. 中国红树林环境生态及经济利用[M]. 北京: 高等教育出版社, 1995.
    [4]
    REEF R, FELLER I C, LOVELOCK C E. Nutrition of mangroves [J]. Tree Physiology, 2010, 30(9): 1148−1160. doi: 10.1093/treephys/tpq048
    [5]
    LUAN H A, GAO W, HUANG S W, et al. Partial substitution of chemical fertilizer with organic amendments affects soil organic carbon composition and stability in a greenhouse vegetable production system [J]. Soil and Tillage Research, 2019, 191: 185−196. doi: 10.1016/j.still.2019.04.009
    [6]
    JIN B J, BI Q F, LI K J, et al. Long-term combined application of chemical fertilizers and organic manure shapes the gut microbial diversity and functional community structures of earthworms [J]. Applied Soil Ecology, 2022, 170: 104250. doi: 10.1016/j.apsoil.2021.104250
    [7]
    REN J H, LIU X L, YANG W P, et al. Rhizosphere soil properties, microbial community, and enzyme activities: Short-term responses to partial substitution of chemical fertilizer with organic manure [J]. Journal of Environmental Management, 2021, 299: 113650. doi: 10.1016/j.jenvman.2021.113650
    [8]
    BASTIDA F, ZSOLNAY A, HERNÁNDEZ T, et al. Past, present and future of soil quality indices: A biological perspective [J]. Geoderma, 2008, 147(3/4): 159−171.
    [9]
    ALI SHAH S A, XU M G, ABRAR M M, et al. Long-term fertilization affects functional soil organic carbon protection mechanisms in a profile of Chinese Loess Plateau soil [J]. Chemosphere, 2021, 267: 128897. doi: 10.1016/j.chemosphere.2020.128897
    [10]
    司海丽, 纪立东, 刘菊莲, 等. 有机肥施用量对玉米产量、土壤养分及生物活性的影响 [J]. 西南农业学报, 2022, 35(4):740−747.

    SI H L, JI L D, LIU J L, et al. Effects of organic fertilizer application rate on maize yield, soil nutrients and biological activity [J]. Southwest China Journal of Agricultural Sciences, 2022, 35(4): 740−747. (in Chinese)
    [11]
    唐莉娜, 张秋芳, 刘波, 等. 有机肥与化肥配施对烤烟土壤微生物群落PLFAs动态的影响 [J]. 中国农学通报, 2008, 24(12):260−265.

    TANG L N, ZHANG Q F, LIU B, et al. Effects of combining application of organic and chemical fertilizers on the some PLFAs dynamics of microbial community in the flue-cured tobacco soil [J]. Chinese Agricultural Science Bulletin, 2008, 24(12): 260−265. (in Chinese)
    [12]
    刘海, 杜如万, 赵建, 等. 施肥对烤烟根际土壤酶活性及细菌群落结构的影响 [J]. 烟草科技, 2016, 49(10):1−8.

    LIU H, DU R W, ZHAO J, et al. Effects of fertilization on enzyme activities and bacterial community structures in rhizosphere soil of flue-cured tobacco [J]. Tobacco Science & Technology, 2016, 49(10): 1−8. (in Chinese)
    [13]
    池伟, 仇建标, 陈少波, 等. 几种肥料在秋茄胚轴生长发育过程中的应用 [J]. 安徽农业科学, 2010, 38(2):679−680.

    CHI W, QIU J B, CHEN S B, et al. Application of several kinds of fertilizer in growth and development process of Kandelia candel hypocotyl [J]. Journal of Anhui Agricultural Sciences, 2010, 38(2): 679−680. (in Chinese)
    [14]
    苏正淑, 张宪政. 几种测定植物叶绿素含量的方法比较 [J]. 植物生理学通讯, 1989, 25(5):77−78.

    SU Z S, ZHANG X Z. Comparison of several methods for determining chlorophyll content in plants [J]. Plant Physiology Communications, 1989, 25(5): 77−78. (in Chinese)
    [15]
    CALLAHAN B J, MCMURDIE P J, ROSEN M J, et al. DADA2: High-resolution sample inference from Illumina amplicon data [J]. Nature Methods, 2016, 13: 581−583. doi: 10.1038/nmeth.3869
    [16]
    陆王康. 红树植物秋茄的胎生苗培育实验研究[D]. 湛江: 广东海洋大学, 2019.

    LU W K. Experimental study on cultivation of viviparous seedlings of mangrove plant Kandelia obovata[D]. Zhanjiang: Guangdong Ocean University, 2019. (in Chinese)
    [17]
    FELLER I C, MCKEE K L, WHIGHAM D F, et al. Nitrogen vs. phosphorus limitation across an ecotonal gradient in a mangrove forest [J]. Biogeochemistry, 2003, 62(2): 145−175. doi: 10.1023/A:1021166010892
    [18]
    林子腾. 雷州半岛红树林湿地生态保护与恢复技术研究[D]. 南京: 南京林业大学, 2005.

    LIN Z T. Research on the conservation and vegetation rehabilitation techniques of mangrove wetlands ecosystem in Lei Zhou peninsula, china[D]. Nanjing: Nanjing Forestry University, 2005. (in Chinese)
    [19]
    王若鹏, 韩俊梅, 任果香, 等. 不同肥料对芝麻生长的影响 [J]. 山西农业科学, 2018, 46(11):1875−1877.

    WANG R P, HAN J M, REN G X, et al. Effects of different fertilizers on sesame growth [J]. Journal of Shanxi Agricultural Sciences, 2018, 46(11): 1875−1877. (in Chinese)
    [20]
    霍树清, 隋艳红, 赵文刚, 等. 苗圃单施化肥对苗木质量影响的调查研究[J]. 防护林科技, 2007(S1): 42, 45.

    HUO S Q, SUI Y H, ZHAO W G, et al. Investigation and study on the effect of single chemical fertilizer application on seedling quality in nursery[J]. Protection Forest Science and Technology, 2007(S1): 42, 45. (in Chinese)
    [21]
    王东丽, 郑笑影, 刘阳, 等. 微生物菌剂协同有机肥对矿区复垦植物生长与养分的影响 [J]. 生态学杂志, 2023, 42(8):1928−1935.

    WANG D L, ZHENG X Y, LIU Y, et al. Effects of organic fertilizer application combined with bacterial agent on the growth and nutrient contents of reclaimed plants in mining area [J]. Chinese Journal of Ecology, 2023, 42(8): 1928−1935. (in Chinese)
    [22]
    JI L F, WU Z D, YOU Z M, et al. Effects of organic substitution for synthetic N fertilizer on soil bacterial diversity and community composition: A 10-year field trial in a tea plantation[J]. Agriculture, Ecosystems & Environment, 2018, 268: 124-132.
    [23]
    张迎春, 颉建明, 李静, 等. 生物有机肥部分替代化肥对莴笋及土壤理化性质和微生物的影响 [J]. 水土保持学报, 2019, 33(4):196−205.

    ZHANG Y C, XIE J M, LI J, et al. Effects of partial substitution of chemical fertilizer by bio-organic fertilizer on Asparagus lettuce and soil physical-chemical properties and microorganisms [J]. Journal of Soil and Water Conservation, 2019, 33(4): 196−205. (in Chinese)
    [24]
    CHEN L, WANG X B, ZHOU W, et al. Responses of crop yields, soil enzymatic activities, and microbial communities to different long-term organic materials applied with chemical fertilizer in purple soil [J]. European Journal of Soil Biology, 2021, 105: 103319. doi: 10.1016/j.ejsobi.2021.103319
    [25]
    LIU J J, SUI Y Y, YU Z H, et al. High throughput sequencing analysis of biogeographical distribution of bacterial communities in the black soils of Northeast China [J]. Soil Biology and Biochemistry, 2014, 70: 113−122. doi: 10.1016/j.soilbio.2013.12.014
    [26]
    MA B, STIRLING E, LIU Y H, et al. Soil biogeochemical cycle couplings inferred from a function-taxon network [J]. Research, 2021, 2021: 7102769.
    [27]
    JEON Y S, PARK S C, LIM J, et al. Improved pipeline for reducing erroneous identification by 16S rRNA sequences using the Illumina MiSeq platform [J]. Journal of Microbiology, 2015, 53(1): 60−69. doi: 10.1007/s12275-015-4601-y
    [28]
    许敏. 植被恢复对自养微生物群落及其固碳能力的影响[D]. 武汉: 华中农业大学, 2022.

    XU M. Effects of vegetation restoration on autotrophic microbial communities and carbon sequestration capacity[D]. Wuhan: Huazhong Agricultural University, 2022. (in Chinese)
    [29]
    LEITE H M F, CALONEGO J C, ROSOLEM C A, et al. Cover crops shape the soil bacterial community in a tropical soil under no-till [J]. Applied Soil Ecology, 2021, 168: 104166. doi: 10.1016/j.apsoil.2021.104166
    [30]
    杜慧竟, 余利岩, 张玉琴. 类诺卡氏属放线菌的研究进展 [J]. 微生物学报, 2012, 52(6):671−678.

    DU H J, YU L Y, ZHANG Y Q. Recent advance on the genus Nocardioides—a review [J]. Acta Microbiologica Sinica, 2012, 52(6): 671−678. (in Chinese)
    [31]
    张变华. 施肥对大豆玉米轮作及复垦土壤微生物多样性影响的研究[D]. 太谷: 山西农业大学, 2021.

    ZHANG B H. Research on effects of fertilization on soybean-maize rotation and microbial diversity in reclaimed soil[D]. Taigu: Shanxi Agricultural University, 2021. (in Chinese)
    [32]
    熊悯梓, 钞亚鹏, 赵盼, 等. 不同生境马铃薯根际土壤细菌多样性分析 [J]. 微生物学报, 2020, 60(11):2434−2449.

    XIONG M Z, CHAO Y P, ZHAO P, et al. Comparison of bacterial diversity in rhizosphere soil of potato in different habitats [J]. Acta Microbiologica Sinica, 2020, 60(11): 2434−2449. (in Chinese)
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