生物有机肥：一种减少水稻生产中合成氮磷肥用量的绿色技术。

Bio-Organic Fertilizer: A Green Technology to Reduce Synthetic N and P Fertilizer for Rice Production.

作者信息

Naher Umme Aminun, Biswas Jatish Chandra, Maniruzzaman Md, Khan Faruk Hossain, Sarkar Md Imran Ullah, Jahan Afsana, Hera Md Hasibur Rahaman, Hossain Md Belal, Islam Aminul, Islam Md Rafiqul, Kabir Md Shahjahan

机构信息

Bangladesh Rice Research Institute, Gazipur, Bangladesh.

出版信息

Front Plant Sci. 2021 Mar 23;12:602052. doi: 10.3389/fpls.2021.602052. eCollection 2021.

DOI:10.3389/fpls.2021.602052

PMID:33833767

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8023392/

Abstract

Decomposed organic materials, in combination with plant growth-promoting bacteria (PGPB), are environmentally friendly and reduce synthetic fertilizer use in rice production. A bio-organic fertilizer (BoF) was prepared using kitchen waste (79%), chita-dhan (unfilled rice grain) biochar (15%), rock phosphate (5%), and a consortium of 10 PGPB (1%) to supplement 30% nitrogen and to replace triple superphosphate (TSP) fertilizer in rice production with an improvement of soil health. PGPB were local isolates and identified using 16S ribosomal RNA partial gene sequences as , sp., , and spp. Isolates could fix N by 0.7-1.4 g kg, solubilize 0.1-1.2 g kg phosphate, and produce 0.1-40 g kg indoleacetic acid. The performance of BoF was evaluated by 16 field experiments and 18 farmers' field demonstration trials during the year 2017-2020 in different parts of Bangladesh. Performances of BoF were evaluated based on control (T), full synthetic fertilizer dose of N, P, and K (T), BoF (2 t ha) + 70% N as urea + 100% K as muriate of potash (T), 70% N as urea + 100% P as TSP + 100% K as muriate of potash (T), and 2 t ha BoF (T) treatments. At the research station, average grain yield improved by 10-13% in T compared with T treatment. Depending on seasons, higher agronomic N use efficiency (19-30%), physiological N use efficiency (8-18%), partial factor productivity (PFP) (114-150%), recovery efficiency (RE) (3-31%), N harvest index (HI) (14-24%), agronomic P use efficiency (22-25%), partial factor productivity of P (9-12%), ARE (15-23%), and HI (3-6%) were obtained in T compared with T treatment. Research results were reflected in farmers' field, and significant ( < 0.05) higher plant height, tiller, panicle, grain yield, partial factor productivity of N and P were obtained in the same treatment. Application of BoF improved soil organic carbon by 6-13%, along with an increased number of PGPB as compared with full synthetic fertilizer dose. In conclusion, tested BoF can be considered as a green technology to reduce 30% synthetic N and 100% TSP requirements in rice production with improved soil health.

摘要

分解的有机物质与促进植物生长的细菌（PGPB）相结合，既环保又能减少水稻生产中合成肥料的使用。一种生物有机肥料（BoF）是用厨余垃圾（79%）、奇塔丹（未填满的米粒）生物炭（15%）、过磷酸钙（5%）和10种PGPB组成的联合体（1%）制备而成，用于补充30%的氮，并在水稻生产中替代重过磷酸钙（TSP）肥料，同时改善土壤健康状况。PGPB是本地分离株，通过16S核糖体RNA部分基因序列鉴定为、属、属和属。分离株能够固定0.7 - 1.4 g/kg的氮，溶解0.1 - 1.2 g/kg的磷，并产生0.1 - 40 g/kg的吲哚乙酸。2017 - 2020年期间，在孟加拉国不同地区通过16个田间试验和18个农户田间示范试验对BoF的性能进行了评估。BoF的性能评估基于对照（T）、氮、磷和钾的全合成肥料剂量（T）、BoF（2 t/ha） + 70%的氮作为尿素 + 100%的钾作为氯化钾（T）、70%的氮作为尿素 + 100%的磷作为TSP + 100%的钾作为氯化钾（T）以及2 t/ha BoF（T）处理。在研究站，与T处理相比，T处理的平均谷物产量提高了10 - 13%。根据季节不同，与T处理相比，T处理获得了更高的农艺氮利用效率（19 - 30%）、生理氮利用效率（8 - 18%）、偏生产力（PFP）（114 - 150%）、回收效率（RE）（3 - 31%）、氮收获指数（HI）（14 - 24%）、农艺磷利用效率（22 - 25%）、磷偏生产力（9 - 12%）、ARE（15 - 23%）和HI（3 - 6%）。研究结果在农户田间得到了体现，相同处理下植株高度、分蘖、穗数、谷物产量、氮和磷的偏生产力显著（<0.05）更高。与全合成肥料剂量相比，BoF的施用使土壤有机碳提高了6 - 13%，同时PGPB数量增加。总之，经测试的BoF可被视为一种绿色技术，能在水稻生产中减少30%的合成氮和100%的TSP需求，同时改善土壤健康状况。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3d11/8023392/739aed0ae4d1/fpls-12-602052-g001.jpg

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生物有机肥：一种减少水稻生产中合成氮磷肥用量的绿色技术。

Bio-Organic Fertilizer: A Green Technology to Reduce Synthetic N and P Fertilizer for Rice Production.

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