4.7 Article

Segregation of Lolium perenne into a subpopulation with high infection by endophyte Epichloe festucae var. lolii results in improved agronomic performance

Journal

PLANT AND SOIL
Volume 446, Issue 1-2, Pages 595-612

Publisher

SPRINGER
DOI: 10.1007/s11104-019-04370-w

Keywords

Lolium perenne; E; festucae var; lolii; Endophyte infection rate; Cold tolerance; Sowing date; Low temperature stress

Funding

  1. National Basic Research Program of China [2014CB138702]
  2. Second Tibetan Plateau Scientific Expedition and Research (STEP) program [2019QZKK0302]
  3. Strategic Priority Research Program of Chinese Academy of Sciences [XDA20100102]
  4. Program for Changjiang Scholars and Innovative Research Team in University, China [IRT17R50]
  5. Fundamental Research Funds for the Central Universities [LZUJBKY-2018-kb10, 2019-kb10]
  6. 111 Project [B12002]
  7. USDA-NIFAMultistate Project [W4147]
  8. New Jersey Agricultural Experiment Station

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Background and aims Low temperature stress is a common hazard during plant growth. Endophyte infection has been shown to increase cold tolerance in host plants. Many Lolium perenne cultivars contain low to moderate levels of endophyte. This study was done to explore cultivar improvement by segregation of endophyte containing individuals from the original cultivar to create a high endophyte subpopulation. Methods Endophyte-infected plants were segregated over the first 3 years to produce high-endophyte subpopulation, and field and greenhouse experiments were carried out in the forth and fifth to determine the cold tolerance of the L. perenne subpopulation with high endophyte infection rates (N), the parent (F), the control endophyte-free subpopulation (E) and the control local variety (L). Results (1) After 3 years of screening, high endophyte infection rates in the tillers and seeds of plants were still observed (96.5%), and agronomic traits (crown width, plant height, panicle number, withering, regreen-up, the growth cycle and the over-wintering rate) was also improved with increased Epichloe colonization of host plant. (2) The subpopulation with high endophyte infection rates and improved agronomic traits had better cold tolerance than the parent, the control endophyte-free subpopulation and the control local variety. The possible mechanisms by which high endophyte infection enhances cold resistance in the field include increased root system, increased the over-wintering rate, reduced regrowth periods with the sowing date being October 15th. (3) The high-endophyte subpopulation significantly increased SOD, POD, CAT, and APX activities at 0, 5, and 10 degrees C by 11.8%-44.6%, compared with the parent population. Conclusions The subpopulation had a high endophyte infection rate, improved agronomic traits and higher enzymatic activities. These results indicate that increasing endophyte infection rates by selection, effectively improved agronomic traits and cold tolerance.

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