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引用次数: 0
摘要
背景:室内垂直农场需要授粉策略来补充或取代昆虫传粉媒介,以生产可销售的草莓果实。为了保证草莓花的自花授粉,研究了不同蒸汽压差(VPD)条件和外部机械波振动对草莓花药开裂和花粉附着的影响。结果:在VPDs为2.06、1.58和0.33 kPa时测定了花药碎裂比例,在VPDs为2.06和0.33 kPa时测定了花粉团的投影面积。将花暴露在2.06 kPa的VPD下,用不同频率(Hz)和均方根加速度(m s-2)组合的振动来评价授粉效果。vpd分别为2.06、1.58和0.33 kPa时,花药完全破裂。VPD为2.06 kPa时花粉丛喷射指数最高。在800 Hz和40 m s-2条件下,花粉簇脱落有效,而在100 Hz和30和40 m s-2条件下,花粉附着在柱头上最有效。结论:高VPD可促进花药开裂时间和花粉团形成,而特定频率的高加速度振动可优化花粉剥离和柱头附着,为垂直农业草莓授粉控制提供有效策略。
Vapor pressure deficit control and mechanical vibration techniques to induce self-pollination in strawberry flowers.
Background: Pollination strategies to supplement or replace insect pollinators are needed to produce marketable strawberry fruits in indoor vertical farms. To ensure the self-pollination of strawberry flowers, anther dehiscence, and pollen attachment were investigated under different vapor pressure deficit (VPD) conditions and external mechanical wave vibrations.
Results: The proportion of dehisced anthers was examined under VPDs of 2.06, 1.58, and 0.33 kPa, and the projected area of pollen clumps was assessed under VPDs of 2.06 and 0.33 kPa. After exposing flowers to a VPD of 2.06 kPa, vibrations with various frequency (Hz) and root mean square acceleration (m s-2) combinations were used to evaluate pollination effectiveness. The anthers underwent complete dehiscence at VPDs of 2.06, 1.58, and 0.33 kPa. The pollen clump ejection index was highest at a VPD of 2.06 kPa. Pollen clump detachment was effective at 800 Hz with 40 m s-2, while pollen attachment to the stigma was most effective at 100 Hz with 30 and 40 m s-2.
Conclusions: These findings demonstrate that high VPD promotes anther dehiscence timing and facilitates pollen clump formation, while specific vibration frequencies with high acceleration optimize pollen detachment and stigma attachment, offering an effective strategy for controlled strawberry pollination in vertical farming.
期刊介绍:
Plant Methods is an open access, peer-reviewed, online journal for the plant research community that encompasses all aspects of technological innovation in the plant sciences.
There is no doubt that we have entered an exciting new era in plant biology. The completion of the Arabidopsis genome sequence, and the rapid progress being made in other plant genomics projects are providing unparalleled opportunities for progress in all areas of plant science. Nevertheless, enormous challenges lie ahead if we are to understand the function of every gene in the genome, and how the individual parts work together to make the whole organism. Achieving these goals will require an unprecedented collaborative effort, combining high-throughput, system-wide technologies with more focused approaches that integrate traditional disciplines such as cell biology, biochemistry and molecular genetics.
Technological innovation is probably the most important catalyst for progress in any scientific discipline. Plant Methods’ goal is to stimulate the development and adoption of new and improved techniques and research tools and, where appropriate, to promote consistency of methodologies for better integration of data from different laboratories.
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