农业工程学报
農業工程學報
농업공정학보
2014年
1期
89-97
,共9页
时元智%崔远来%王力%才硕%余双%刘路广
時元智%崔遠來%王力%纔碩%餘雙%劉路廣
시원지%최원래%왕력%재석%여쌍%류로엄
氮肥%磷肥%光合%叶面积指数%冠层%光合有效辐射%SPAD值%产量
氮肥%燐肥%光閤%葉麵積指數%冠層%光閤有效輻射%SPAD值%產量
담비%린비%광합%협면적지수%관층%광합유효복사%SPAD치%산량
nitrogen fertilizer%phosphorus compounds%photosynthesis%leaf area index (LAI)%canopy%photosynthetically active radiation (PAR)%soil and plant analyzer development value (SPAD value)%yield
为揭示不同氮、磷施用量及配合翻压适量紫云英入田对早稻冠层特性和产量的影响,在7个施氮、3个施磷及2个不施氮/磷水平下,开展早稻全生育期叶面积指数LAI、冠层光合有效辐射PAR传输特性、叶片叶绿素SPAD 值、生育后期剑叶净光合速率 Pn及产量的试验观测。结果表明,氮磷调控可显著影响早稻 LAI、叶片叶绿素含量和叶片光合速率,进而通过调节LAI影响冠层PAR传输特性,最终表现为产量上的差异。缺氮对早稻的影响显著高于缺磷,但在施肥充足时,磷肥对产量的影响比氮肥更加显著。早稻冠层特性和产量随氮、磷施用量的增加表现出边际递减效应,当施用量超过某一值时出现拐点,最终表现为产量的下降。在赣抚平原灌区,187.5~225 kg/hm2施氮量和60~120 kg/hm2施磷量以及翻压15000 kg/hm2紫云英鲜草入田可有效提高早稻LAI和冠层PAR截获率In以及叶片叶绿素含量,维持剑叶生长期内较高的净光合速率Pn,获得高产。
為揭示不同氮、燐施用量及配閤翻壓適量紫雲英入田對早稻冠層特性和產量的影響,在7箇施氮、3箇施燐及2箇不施氮/燐水平下,開展早稻全生育期葉麵積指數LAI、冠層光閤有效輻射PAR傳輸特性、葉片葉綠素SPAD 值、生育後期劍葉淨光閤速率 Pn及產量的試驗觀測。結果錶明,氮燐調控可顯著影響早稻 LAI、葉片葉綠素含量和葉片光閤速率,進而通過調節LAI影響冠層PAR傳輸特性,最終錶現為產量上的差異。缺氮對早稻的影響顯著高于缺燐,但在施肥充足時,燐肥對產量的影響比氮肥更加顯著。早稻冠層特性和產量隨氮、燐施用量的增加錶現齣邊際遞減效應,噹施用量超過某一值時齣現枴點,最終錶現為產量的下降。在贛撫平原灌區,187.5~225 kg/hm2施氮量和60~120 kg/hm2施燐量以及翻壓15000 kg/hm2紫雲英鮮草入田可有效提高早稻LAI和冠層PAR截穫率In以及葉片葉綠素含量,維持劍葉生長期內較高的淨光閤速率Pn,穫得高產。
위게시불동담、린시용량급배합번압괄량자운영입전대조도관층특성화산량적영향,재7개시담、3개시린급2개불시담/린수평하,개전조도전생육기협면적지수LAI、관층광합유효복사PAR전수특성、협편협록소SPAD 치、생육후기검협정광합속솔 Pn급산량적시험관측。결과표명,담린조공가현저영향조도 LAI、협편협록소함량화협편광합속솔,진이통과조절LAI영향관층PAR전수특성,최종표현위산량상적차이。결담대조도적영향현저고우결린,단재시비충족시,린비대산량적영향비담비경가현저。조도관층특성화산량수담、린시용량적증가표현출변제체감효응,당시용량초과모일치시출현괴점,최종표현위산량적하강。재공무평원관구,187.5~225 kg/hm2시담량화60~120 kg/hm2시린량이급번압15000 kg/hm2자운영선초입전가유효제고조도LAI화관층PAR절획솔In이급협편협록소함량,유지검협생장기내교고적정광합속솔Pn,획득고산。
Fertilization was an essential agricultural practice to improve soil fertility and quality, and the change leaf area index (LAI) and plant chlorophyll content, and had a direct effect on photosynthetic carbon assimilation and grain yield. In order to reveal the effect of a nitrogen-phosphorus fertilizer regulation and the ploughing down of Chinese milk vetch planted in the winter on the canopy characteristics and yield of early season rice, experiments were carried out, with 7 nitrogen levels (including 2 combined applications of chemical nitrogen and green manure levels) and 3 phosphorus levels and 2 No-nitrogen / phosphorous levels. LAI, the transmission characteristics of canopy photosynthetically active radiation (PAR), and leaf SPAD values were measured during the whole growth period, and the leaf net photosynthetic rate (Pn) was also measured in the heading-flowering period and in the grain-filling period, and the yield of early season rice was measured after harvesting. The results showed that nitrogen and phosphorus fertilizer could significantly affect the LAI which had a direct effect on light transmission and interception, SPAD value, Pn, and yield. In a certain range, increasing nitrogen fertilizer could cause a higher LAI, significantly, while increasing phosphorous fertilizer also changed the LAI in a slightly elevated but not significant manner. The variation trend of the canopy PAR interception and the LAI were basically the same, while the canopy PAR transmittance was the opposite. However, the effect of the LAI on reflectance was not obvious enough, its values, greatly influenced by mirror reflection, maintained between 3%~5%. With an increase of chemical fertilizer, the marginal diminishing effect gradually came into play. When the chemical fertilizer was overdosed, especially when the nitrogen fertilizer was higher than 225 kg/hm2 or the phosphate fertilizer higher than 120 kg/hm2, the effect curve appeared at an inflection point, and the early season rice growth might be inhibited and the grain yield would be cut. Ploughing down of moderate green manure (Chinese milk vetch) planted in the winter could significantly promote the LAI, light transmission, and interception, SPAD, photosynthesis, and yield under the same fertilizer, especially in the condition of low nitrogen. This could be because ploughing down green manure could increase the soil organic matter, soil humus, and soil microbial quantity and activity, and effectively reduce the fixation on nutrients. Available nutrients were released in spurts, and the soil nitrogen update was accelerated. An adequate soil nitrogen supply was conducive to maintaining the chlorophyll content of flag leaves, prolonging the functional period of leaves, and improving the photosynthesis efficiency and yield. The effects of a phosphorus deficiency on leaves were significantly less than that of low nitrogen availability, although phosphorus was limited to the promotion of chlorophyll content. A reasonable increase of phosphorus fertilizer could affect crop yield by promoting the LAI, light interception, and photosynthesis efficiency. This study considered that, in the Ganzhou and Fuzhou Plain Irrigation District, a combined application of 187.5~225 kg/hm2 nitrogen, 60~120 kg/hm2 phosphorus, and 15000 kg/hm2 Chinese milk vetch effectively improved the LAI, canopy PAR interception, and the content of chlorophyll, maintained a higher net photosynthesis efficiency, and consequently, enriched crop yield. It should be pointed out that, because of the limited manpower and material resources, this paper involved only one rice variety and one year’s data, and the research on photosynthesis was only limited to the leaf scale, and in the measurement of PAR transmission characteristics and photosynthesis there existed a certain time lapse. Further studies are required to research the effect of different amounts of ploughing down of Chinese milk vetch on early season rice canopy characteristics.