间伐和水氮调控对毛白杨光合特性和器官非结构性碳水化合物的影响

doi:10.11707/j.1001-7488.LYKX20250126

摘要/Abstract

摘要：

目的: 监测间伐和水氮添加后不同时期毛白杨光合特性和各器官非结构性碳水化合物的动态变化，阐明林木器官尺度非结构性碳水化合物含量对不同处理下光照、水分和养分资源的响应状况，为毛白杨人工林精准培育、资源高效利用提供理论依据。方法: 以华北平原三倍体毛白杨 S86无性系人工林为研究对象，采用双因素完全随机区组设计，设置隔行间伐和隔行隔株间伐2种间伐强度，灌溉施氮、灌溉、不灌溉不施氮3种水氮处理。定期监测林木光合特性，并采集叶片、枝条、树干、根系样品，分析不同时期叶片光合特征和各器官非结构性碳水化合物的动态变化规律。结果: 1）从旱季到雨季，毛白杨叶片净光合速率和瞬时水分利用效率显著下降，水氮处理主要作用于叶片净光合速率的调控，且受间伐强度影响。旱季时，低强度间伐后配合灌溉施肥、灌溉，毛白杨叶片净光合速率分别提升103.51%、45.16%；雨季时，唯有高强度间伐后灌溉可促进叶片净光合速率提高30.31%。2）旱雨季交替时，叶片、枝条、树干、根系可溶性糖、淀粉和非结构性碳水化合物含量均有提高，但不同器官对间伐和水氮调控的响应存在差异，灌溉施肥显著增加旱季叶片和枝条可溶性糖和非结构性碳水化合物含量，但显著降低根系可溶性糖和非结构性碳水化合物含量。3）生长季内可溶性糖是毛白杨最主要的非结构性碳水化合物贮藏形式，不同器官可溶性糖和非结构性碳水化合物含量变化规律相同，均呈叶片>枝条、根系>树干的趋势；可溶性糖转化形成的淀粉主要集中在枝条和根系。4）叶片、枝条、树干可溶性糖和非结构性碳水化合物含量存在显著正相关，根系非结构性碳水化合物含量受可溶性糖和淀粉含量的共同影响；就不同器官而言，叶片和根系非结构性碳水化合物及组分含量具有较高相关性。5）旱季蒸腾速率是解释各器官非结构性碳水化合物含量变异的关键因子，贡献率达47.6%；旱季叶片和根系非结构性碳水化合物含量受光合速率、蒸腾速率和气孔导度的正向调控，雨季叶片非结构性碳水化合物含量受叶片光合特性的负向调节。结论: 旱季到雨季，毛白杨叶片净光合速率和瞬时水分利用效率显著下降，水氮处理对净光合速率的调控受间伐强度影响。旱雨季交替时，各器官非结构性碳水化合物含量提高，但不同器官对间伐和水氮调控的响应存在差异。

关键词: 毛白杨, 间伐效应, 水氮调控, 光合特性, 非结构性碳水化合物

Abstract:

Objective: This study monitored the photosynthetic characteristics of Populus tomentosa and the non-structural carbohydrates (NSC) of each organ at different stages after thinning and water and nitrogen addition, and elucidated the response of tree organ-scale NSC content to light, water, and nutrient resources under different treatments, aiming to provide a solid theoretical basis for the precise cultivation and efficient utilization of resources in the P. tomentosa plantations in the region. Method: The triploid P. tomentosa S86 plantation in the North China Plain was taken as the research object, and a two-factor completely randomized block design was adopted. Two thinning intensities were set: row thinning (50% thinning, T50) and row and tree thinning (75% thinning, T75). Three water and nitrogen treatments were implemented: water and nitrogen addition (WN), water addition (W), and no water and no nitrogen addition (CK). The photosynthetic characteristics of forest trees were monitored, and leaves, branches, trunks, and roots were sampled to determine their non-structural carbohydrate, thereby clarifying the response of photosynthetic characteristics and non-structural carbohydrates to thinning and water-nitrogen interactions of P. tomentosa at different stages, and further exploring the coupling relationship between non-structural carbohydrates and photosynthetic characteristics in different periods. Result: 1) From the dry season to the rainy season, the net photosynthetic rate and instantaneous water use efficiency of P. tomentosa leaves significantly decreased. Water and nitrogen treatment mainly regulated the net photosynthetic rate of the leaves, which was also affected by the thinning intensity. In the dry season, low-intensity thinning combined with irrigation plus fertilization, and irrigation was able to increase the net photosynthetic rate of P. tomentosa by 103.51% and 45.16%, respectively. In the rainy season, only high-intensity thinning followed by irrigation was able to increase the net photosynthetic rate by 30.31%. 2) The alternation of dry and rainy seasons led to an increase in the content of soluble sugars, starch, and NSC in leaves, branches, trunks, and roots. However, there were differences in the responses of different organs to thinning and water-nitrogen regulation. Irrigation and fertigation significantly promoted the increase in soluble sugar and NSC contents in leaves and branches during the dry season, but significantly decreased the soluble sugar and NSC contents in roots. 3) Soluble sugars during the growing season were the main NSC storage form in P. tomentosa. The content of soluble sugar and NSC in different organs changed in the same pattern, showing a trend of leaves>branches, roots>stems. The starch formed by the conversion of soluble sugars was mainly concentrated in the branches and roots. 4) There was a significant positive correlation between the soluble sugar content of leaves, branches, and trunks and NSC, while the NSC of roots was jointly affected by soluble sugars and starch. In terms of different organs, there was a high correlation between NSC and its component contents in leaves and roots. 5) In the dry season, transpiration rate was the key factor explaining the variation in NSC content in various organs, with a contribution rate as high as 47.6%. The NSC content of leaves and roots in the dry season was positively regulated by photosynthetic rate, transpiration rate, and stomatal conductance, while the NSC content of leaves and roots in the rainy season was negatively regulated by leaf photosynthetic characteristics. Conclusion: From the dry season to the rainy season, the net photosynthetic rate and instantaneous water use efficiency of P. tomentosa leaves decrease. The regulation of net photosynthetic rate by water and nitrogen treatment is affected by thinning intensity. When the dry and rainy seasons alternate, NSC content of each organ increases, but there are differences in the response of different organs to thinning and water-nitrogen regulation.

Key words: Populus tomentosa, thinning effect, water and nitrogen regulation, photosynthetic properties, non-structural carbohydrates

中图分类号:

S718.43

王亚飞,曲冠博,丁晓菲,唐泽浩,李子睿,贾黎明. 间伐和水氮调控对毛白杨光合特性和器官非结构性碳水化合物的影响[J]. 林业科学, 2026, 62(2): 97-110.

Yafei Wang,Guanbo Qu,Xiaofei Ding,Zehao Tang,Zirui Li,Liming Jia. Effects of Thinning and Water-Nitrogen Regulation on Photosynthetic Characteristics and Organ Non-Structural Carbohydrates of Populus tomentosa[J]. Scientia Silvae Sinicae, 2026, 62(2): 97-110.

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