抽穗期刈割改善密植甜高粱光合速率和生物量形成OA
Heading-stage Mowing Improves Photosynthetic Rate and Biomass Production in High-density Sweet Sorghum
为提高甜高粱(Sorghum bicolor'Dochna')生物量并揭示其形成的生理生态机制,探究了不同栽培密度(15 000、75000和135 000 plant·hm-2)和刈割处理对植株形态、分蘖、冠层内光照强度、气体交换以及生物量的影响.结果表明,随着栽培密度的增大,甜高粱主茎株高增加、茎粗与叶面积降低、分蘖数减少.同时,密植导致甜高粱冠层内光照强度降低、叶片光合性能下降、植株鲜重减少,但鲜草产量显著增加.刈割能够显著增加各密度处理的分蘖数,降低分蘖死亡率,且明显改善密植甜高粱冠层内光照强度、叶片光合性能与植株鲜重,进而提高鲜草产量.进一步分析表明,冠层内平均光照强度和主茎功能叶净光合速率是影响主茎实际分蘖数和鲜重的主要因子.因此,密植是甜高粱高产的重要栽培措施;刈割通过改善密植甜高粱冠层光环境提高光合速率与单株分蘖数,从而增加鲜草产量.研究结果为甜高粱等优质牧草高产栽培提供理论依据.
INTRODUCTION:Light intensity is an important environmental factor affecting plant photosynthesis.High-density plan-ting,an important crop cultivation practice for high yields,can reduce canopy light intensity,which decreases yield by reducing the rate of photosynthesis and the number of plant tillers.Given the large size of sweet sorghum plants which can naturally lead to dense canopy,we hypothesized that mowing might be able to increase photosynthetic rate and tillering,and population biomass,by improving the light environment within the canopy in high-density planted sweet sorghum. RATIONALE:Currently high-quality forage shortage is a serious problem in China.Sweet sorghum,a high quality forage crop ideal for silage,has attracted great attention due to its high biomass production and excellent palatability.This study aims to elucidate the patterns and physiological-ecological mechanisms by which mowing increases the population bio-mass of sweet sorghum,thus providing a theoretical basis for high-yield sweet sorghum cultivation. RESULTS:With increasing planting density(15 000,75 000,and 135 000 plant·hm-2),the main stem height of sweet sorghum increases,while stem diameter and leaf area decrease,accompanied by a reduction in the number of tillers.At the same time,the higher the planting density,the lower the canopy light intensity,the leaf photosynthetic performance and the fresh weight per plant,although the population-level fresh forage yield can increase significantly as the planting density increases up to 135 000 plant·hm-2.We found that heading-stage mowing largely increased the number of tillers(4.7,3.7,and 2.3 per plant,respectively)in all density treatments and reduced the tiller mortality by 35 days.In addition,heading-stage mowing significantly improved canopy light conditions,leaf photosynthetic efficiency and plant fresh weight in densely planted sweet sorghum,further increasing fresh grass yield.Our analysis showed that the average canopy light intensity and the net photosynthetic rate of functional leaves on the main stem were the main factors that influenced the actual tiller number and the main stem fresh weight,respectively. CONCLUSION:Our results demonstrated that high density planting is an important cultivation strategy for the high yields of sweet sorghum through improving the light environment within the dense canopy,thereby increasing the photosynthetic rate and the number of tillers per plant,and eventually increasing the population biomass.
何梓齐;吴含玉;孙智超;胡婷婷;王英伟;张亚黎;姜闯道
石河子大学农学院,石河子 832003||中国科学院植物研究所,植物多样性与特色经济作物全国重点实验室/国家植物园,北京 100093中国科学院植物研究所,植物多样性与特色经济作物全国重点实验室/国家植物园,北京 100093中国科学院植物研究所,植物多样性与特色经济作物全国重点实验室/国家植物园,北京 100093中国科学院植物研究所,植物多样性与特色经济作物全国重点实验室/国家植物园,北京 100093中国科学院植物研究所,植物多样性与特色经济作物全国重点实验室/国家植物园,北京 100093石河子大学农学院,石河子 832003中国科学院植物研究所,植物多样性与特色经济作物全国重点实验室/国家植物园,北京 100093||中国科学院大学现代农业科学学院,北京 100049
生物量密植光照强度刈割光合作用甜高粱分蘖
biomasshigh density plantinglight intensitymowingphotosynthesissweet sorghumtillering
《植物学报》 2026 (1)
78-89,12
中国科学院先导专项(No.XDA26040103)
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