Plant seed research provides basis for sustainable alternatives to chemical fertilizers

Plant seed research provides basis for sustainable alternatives to chemical fertilizers — Graphical representation of the plant system including microhabitat associations of analyzed isolates from the tomato endosphere. All identified bacteria with plant growth-promoting effects were linked to the microhabitats they were found to be associated with by colored dots. Both seed generations are included in the model. Credit: Alessandro Bergna, Tomislav Cernava, Manuela Rändler, Rita Grosch, Christin Zachow, and Gabriele Berg

Recent advances in next-generation sequencing technologies have allowed scientists to access and assess previously undetectable plant microorganisms. Scientists have long known that various plant-associated microorganisms contribute to plant health and productivity but were unable to analyze them in plant seeds due to technical restrictions. Thanks to the enhanced development of high-throughput sequencing methods, plant seed microbiomes have been increasingly studied.

In a study published in the fully open access Phytobiomes Journal, a group of scientists led by Tomislav Cernava utilized this new technology and were the first to assess the seed microbiomes of two successive plant generations of tomato plants, selected due to its importance to the human diet. The team identified and characterized microbial communities in different compartments of the tomato.

The research showed that seed endophytes (microorganisms found in inner seed tissues) have distinct compositions and harbor different beneficial bacteria. The team also found that plant seeds were an important vector for the transmission of beneficial microorganisms across generations. Notably, they found that the seed is an important vehicle of plant growth-promoting bacteria.

This novel discovery has an impact for the design of seed treatment. Cernava explains: "These findings provide a basis to further explore how plant seeds can be specifically equipped with beneficial microorganisms and provide the basis to develop sustainable alternative to chemical inputs, such as fertilizers and pesticides, in agriculture."

More details about this study can be found in Tomato Seeds Preferably Transmit Plant Beneficial Endophytes published March 6, 2019 in Phytobiomes Journal Volume 2, Number 4.

Explore further: Excessive phosphate fertilizer use can reduce microbial functions critical to crop health

More information: Alessandro Bergna et al, Tomato Seeds Preferably Transmit Plant Beneficial Endophytes, Phytobiomes Journal (2018). DOI: 10.1094/PBIOMES-06-18-0029-R

	Plant seed research provides basis for sustainable alternatives to chemical fertilizers
	admin
	2019-03-25
发布年	2019
语种	英语
国家	美国
领域	地球科学
正文(英文)	Graphical representation of the plant system including microhabitat associations of analyzed isolates from the tomato endosphere. All identified bacteria with plant growth-promoting effects were linked to the microhabitats they were found to be associated with by colored dots. Both seed generations are included in the model. Credit: Alessandro Bergna, Tomislav Cernava, Manuela Rändler, Rita Grosch, Christin Zachow, and Gabriele Berg Recent advances in next-generation sequencing technologies have allowed scientists to access and assess previously undetectable plant microorganisms. Scientists have long known that various plant-associated microorganisms contribute to plant health and productivity but were unable to analyze them in plant seeds due to technical restrictions. Thanks to the enhanced development of high-throughput sequencing methods, plant seed microbiomes have been increasingly studied. In a study published in the fully open access Phytobiomes Journal, a group of scientists led by Tomislav Cernava utilized this new technology and were the first to assess the seed microbiomes of two successive plant generations of tomato plants, selected due to its importance to the human diet. The team identified and characterized microbial communities in different compartments of the tomato. The research showed that seed endophytes (microorganisms found in inner seed tissues) have distinct compositions and harbor different beneficial bacteria. The team also found that plant seeds were an important vector for the transmission of beneficial microorganisms across generations. Notably, they found that the seed is an important vehicle of plant growth-promoting bacteria. This novel discovery has an impact for the design of seed treatment. Cernava explains: "These findings provide a basis to further explore how plant seeds can be specifically equipped with beneficial microorganisms and provide the basis to develop sustainable alternative to chemical inputs, such as fertilizers and pesticides, in agriculture." More details about this study can be found in Tomato Seeds Preferably Transmit Plant Beneficial Endophytes published March 6, 2019 in Phytobiomes Journal Volume 2, Number 4. Explore further: Excessive phosphate fertilizer use can reduce microbial functions critical to crop health More information: Alessandro Bergna et al, Tomato Seeds Preferably Transmit Plant Beneficial Endophytes, Phytobiomes Journal (2018). DOI: 10.1094/PBIOMES-06-18-0029-R
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来源平台	Science X network
文献类型	新闻
条目标识符	http://119.78.100.173/C666/handle/2XK7JSWQ/110984
专题	地球科学
推荐引用方式 GB/T 7714	admin. Plant seed research provides basis for sustainable alternatives to chemical fertilizers. 2019.

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