U. Chandrasekaran, S. Byeon, Kunhyo Kim, Woojin Huh, A. Han, Young-sang Lee, H. S. Kim
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引用次数: 0
摘要
光合作用的光化学过程受养分有效性的显著影响。本研究旨在了解严重干旱胁迫引起的营养元素变化对光合色素功能的影响。采用元素分析方法,研究了干旱处理32 d后东部白松(Pinus strobus L)幼苗矿质营养成分的变化。结果表明,严重干旱导致Chl“b”和Chl“a”含量分别显著和不显著下降。测定了铁(Fe)、锌(Zn)、镁(Mg)、钾(K)、磷(P)和氮(N)的元素组成。重度干旱处理后,叶片全氮含量显著下降(对照-1.57±0.1;干旱-0.65±0.07),P(对照-959.4±17;干旱-645±46),Mg(对照-1030.4±33;干旱-750.7±76),K(对照-3062.5±32;干旱-1853.3±198),叶片铁含量降低不显著(对照-120.3±20;干旱-98.9±28),叶片锌增加(对照-33.49±2);干旱-39.05±4)。重度干旱条件下,叶片Chl " b "中Fe、P、Mg、K和N的含量呈显著正相关,而叶片Chl " A "中Zn的含量仅呈显著正相关。在严重干旱条件下,养分再分配对叶片叶绿素水平有显著影响。
Influence of severe drought on mineral nutrient status in eastern white pine (Pinus strobus L)
Abstract The photochemical process of photosynthesis is significantly influenced by the availability of nutrients. The purpose of this research is to ascertain how photosynthetic pigment function is affected by nutrient elemental changes caused by severe drought stress. Using elemental analysis, we looked at the changes in mineral nutrient composition in eastern white pine (Pinus strobus L) seedlings 32 days after drought treatment. According to our findings, severe drought resulted in a significant and non-significant decrease in the contents of Chl “b and a”, respectively. The elemental composition of iron (Fe), zinc (Zn), magnesium (Mg), potassium (K), phosphorus (P) and nitrogen (N) was measured. After severe drought treatment, leaf nutrient status showed a significant decline in total N (control-1.57 ± 0.1; drought-0.65 ± 0.07), P (control-959.4 ± 17; drought-645 ± 46), Mg (control-1030.4 ± 33; drought-750.7 ± 76), and K (control-3062.5 ± 32; drought-1853.3 ± 198), with a non-significant decrease in leaf Fe (control-120.3 ± 20; drought-98.9 ± 28) and increase in leaf Zn (control-33.49 ± 2; drought-39.05 ± 4). A positive correlation was found between the content of Fe, P, Mg, K, and N in leaf Chl “b”, but only a positive correlation was found between the content of Zn in leaf Chl “a” during severe drought. During severe drought, nutrient reallocation has a significant impact on leaf chlorophyll levels, as evidenced by this correlation.