气候变暖对西藏青稞农田氨挥发和产量的影响

【目的】研究气候变暖对西藏青稞农田氨挥发特性和青稞产量的影响,为探索减少青稞生产中的氨挥发、提高氮肥利用率提供依据。【方法】在西藏青稞主产区之一的拉萨河谷农区,采用开顶式气室(open-top chamber, OTC)增温系统模拟气候变暖进行大田试验。试验共设置不增温(对照,T0)、增温2℃(T2)和增温4℃(T4)3个处理。将290.25 kg/hm²尿素(纯N 133.5 kg/hm²)分别于播种前(4月12日)基施60%、拔节期(6月6日)和抽穗期(6月20日)各追施20%。测定不同处理青稞农田的土壤氨挥发通量以及青稞生长指标、产量及其构成要素,计算基肥和追肥的氨挥发积累量和氨挥发损失率,分析增温与土壤氨挥发特性以及青稞株高、产量及其构成要素的相关性。【结果】氮肥基施后,T0、T2和T4 3个处理的青稞农田土壤氨挥发通量至播种后第14天达到峰值,且土壤氨挥发通量峰值由大到小表现为T4>T0>T2;T2和T4处理基肥氨挥发周期均为26 d,较T0处理延长了3 d。于抽穗期追施氮肥后,T0、T2和T4 3个处理的土壤氨挥发通量...     

Identification,Characteristics and Function of Phosphoglucomutase (PGM) in the Agar Biosynthesis and Carbon Flux in the Agarophyte Gracilariopsis lemaneiformis (Rhodophyta)

Agar is widely applied across the food, pharmaceutical and biotechnology industries, owing to its various bioactive functions. To better understand the agar biosynthesis in commercial seaweed Gracilariopsis lemaneiformis, the activities of four enzymes participating in the agar biosynthesis were detected, and phosphoglucomutase (PGM) was confirmed as highly correlated with agar accumulation. Three genes of PGM (GlPGM1, GlPGM2 and GlPGM3) were identified from the G. lemaneiformis genome. The subcellular localization analysis validated that GlPGM1 was located in the chloroplast and GlPGM3 was not significantly distributed in the organelles. Both the GlPGM1 and GlPGM3 protein levels showed a remarkable consistency with the agar variations, and GlPGM3 may participate in the carbon flux between (iso)floridoside, floridean starch and agar synthesis. After treatment with the PGM inhibitor, the agar and floridean starch contents and the activities of floridean starch synthase were significantly decreased; products identified in the Calvin cycle, the pentose phosphate pathway, the Embden-Meyerhof-Parnas pathway and the tricarboxylic acid cycle were depressed; however, lipids, phenolic acids and the intermediate metabolites, fructose-1,6-phosphate were upregulated. These findings reveal the essential role of PGM in regulating the carbon flux between agar and other carbohydrates in G. lemaneiformis, providing a guide for the artificial regulation of agar accumulation.