鸟粪石基载镁生物炭对干湿交替灌溉水稻产量与品质的影响OA北大核心CSTPCD
Effects of struvite-based magnesium modified biochar on rice yield and quality under alternate wetting and drying irrigation
鸟粪石(MgNH4PO4·6H2O)普遍存在于镁改性生物炭对废水氮磷去除后的回收产物中,其可以作为缓释肥料使用.为探究鸟粪石基载镁生物炭(struvite-based magnesium modified biochar,MAP-BC)在农田中的应用效果以及对不同灌溉和施肥模式的适用性,该研究依托大田试验,以东研 18号(粳稻)为供试材料,设置常规淹灌(ICF)、干湿交替(IAWD)2种灌溉模式,以及常规施肥(conventional fertilization,N1B0)、常规施肥+5 t/hm2 MAP-BC(conventional fertilization +5 t/hm2 MAP-BC,N1B1)、常规施肥+10 t/hm2 MAP-BC(conventional fertilization +10 t/hm2 MAP-BC,N1B2)、减施氮磷肥 25%+5 t/hm2 MAP-BC(25%less nitrogen and phosphate fertilizer+5 t/hm2 MAP-BC,N3/4B1)和减施氮磷肥 25%+10 t/hm2 MAP-BC(25%less nitrogen and phosphate fertilizer+10 t/hm2 MAP-BC,N3/4B2)5种施肥模式.结果表明:与ICF相比,IAWD显著提高了乳熟期叶片叶绿素含量,并显著降低了 2021年无效分蘖数(P<0.05);MAP-BC不仅能够高效弥补减施氮磷肥对水稻叶绿素含量的不利影响,还具有一定的超补偿效果;MAP-BC中高纯度的鸟粪石组分通过缓释氮磷素,保障了对植株氮磷养分的长期供应.与N1B0 相比,N3/4B2 不仅可以满足水稻生长后期对氮磷养分的需求,还使穗部吸氮量和吸磷量分别显著增加(P<0.05)4.77%~7.06%和 4.26%~12.69%;与N1B0 相比,施加 10 t/hm2 MAP-BC使 2a的最高分蘖数和最终分蘖数分别显著增加(P<0.05)6.75%~9.64%和13.16%~16.88%;2 a试验中,在IAWD模式下,与N1B0 相比,N1B1 和N1B2 的产量分别显著提高(P<0.05)了7.66%~8.43%和 11.49%~12.64%,并且 10 t/hm2 的MAP-BC可以弥补减施 25%氮磷肥对产量造成的不利影响;IAWD模式下N3/4B1 和N3/4B2 可以显著降低消减值、垩白粒率和垩白度,显著提高崩解值,从而显著改善(P<0.05)水稻外观品质与食味值;此外,N1B1 和N1B2 较N1B0 处理显著提高(P<0.05)稻米蛋白含量 2.66%和 5.79%,表明施用MAP-BC有助于改善稻米的营养品质.因此,在IAWD模式下减施氮磷肥 25%配施 10 t/hm2 MAP-BC可在节水条件下实现减施氮磷肥、增产、提质,从而为水稻绿色高效生产提供理论依据.
Struvite(MgNH4PO4·6H2O)is commonly found in the recovered products after removal of nitrogen(N)and phosphorus(P)from wastewater by magnesium modified biochar,which can be used as a slow-release fertilizer.This study aims to investigate the effects of the struvite-based magnesium modified biochar(MAP-BC)combined with different fertilization rates on N and P reduction,rice yield and quality under different irrigation modes.MAP-BC was also applied in farmland under the different modes of irrigation and fertilization.Dongyan 18(japonica rice)was used as the test material in the field experiment.Two irrigation modes were set,including the conventional flooding(ICF)and alternate wet and dry(IAWD)irrigation.Five types of fertilizer application were the conventional fertilization(N1B0),conventional fertilization + 5 t/hm2 MAP-BC(N1B1),conventional fertilization + 10 t/hm2 MAP-BC(N1B2),25%reduction in N and P fertilizer + 5 t/hm2 MAP-BC(N3/4B1),and 25%reduction in N and P fertilizer + 10 t/hm2 MAP-BC(N3/4B2).Furthermore,MAP-BC was applied with a struvite purity of 82%.Excellent slow-release properties,N and P nutrient loads were obtained to solidify the subsequent field applications.Both MAP-BC and basal fertilizer were thoroughly mixed to simultaneously apply into the topsoil.Moreover,the MAP-BC was only applied in 2021 without 2022,in order to determine the positive effect of MAP-BC in the next growing season.The results showed that:Compared with ICF,IAWD significantly increased the chlorophyll content at milk-ripe stage,whereas,there was the significant decrease in the ineffective tiller number in 2021(P<0.05).Compared with ICF,IAWD was significantly reduced the number of ineffective tillers by 17.39%in 2021(P<0.05).MAP-BC was avoided the adverse effect of fertilizer reduction on chlorophyll content of rice,indicating the super compensation.Compared with N1B0,N3/4B1 and N3/4B2 treatments significantly increased the leaf chlorophyll content at tillering,jointing-booting,heading and flowering,and milk-ripe stage by 3.00%-6.83%,2.99%-6.92%,3.66%-5.69%,and 3.42%-9.02%,respectively(P<0.05).The high-purity struvite components in the MAP-BC were ensured the long-term supply of N and P nutrients to plants through the slow release.Compared with N1B0,N3/4B2 was fully met the demand for N and P nutrients at the later stage of rice growth.There was the significant increase in the N and P uptake at panicle by 4.77%-7.06%and 4.26%-12.69%,respectively(P<0.05).Compared with N1B0,the application of 10 t/hm2 MAP-BC significantly increased the highest tiller number and the final tiller number at two years by 6.75%-9.64%and 13.16%-16.88%,respectively(P<0.05).In the two-year experiment,compared with N1B0 in IAWD mode,the yield in the N1B1 and N1B2 treatments significantly increased by 7.66%-8.43%and 11.49%-12.64%,respectively(P<0.05).Meanwhile,10 t/hm2 MAP-BC was compensated for the adverse effects of 25%reduction in N and P fertilizer on yield.In IAWD,N3/4B1 and N3/4B2 were significantly reduced the setback,chalky rice rate and chalkiness,whereas,there was the significant increase in the break down value(P<0.05).As such,the appearance and eating quality of rice were then improved significantly(P<0.05).In addition,N1B0 and N1B2 significantly increased(P<0.05)the protein content of rice by 2.66%and 5.79%compared with N1B0 treatment,indicating that the application of MAP-BC could improve the nutritional quality of rice.Therefore,25%reduction of N and P fertilizer combined with 10 t/hm2 MAP-BC in IAWD was achieved in the fertilization reduction,yield increase and quality improvement under water-saving conditions.Thus,the finding can provide a theoretical basis for the green and efficient rice production.Subsequent studies should be considered on the utilization of actual eutrophic water in the MAP-BC preparation,in order to enhance the recycling efficiency of agricultural straw and eutrophic water.
李妍琦;吴奇;宫福征;官玉;王宣茗;迟道才
沈阳农业大学水利学院,沈阳 110866沈阳农业大学农学院,沈阳 110866
农业科学
灌溉肥料水稻鸟粪石基载镁生物炭叶绿素氮磷吸收产量品质
irrigationfertilizersricestruvite-based magnesium modified biocharchlorophyllnitrogen and phosphorus uptakeyieldquality
《农业工程学报》 2024 (004)
91-103 / 13
国家自然科学基金(52009078;52279039);中国博士后科学基金(2021M693863);辽宁省教育厅科研项目(LJKMZ20221005)
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