Selection of rhizobial strains differing in their nodulation kinetics under low temperature in four temperate legume species

Emmanuelle D'Amours, Annick Bertrand, Jean Cloutier, François-Philippe Chalifour, Annie Claessens, Solen Rocher, Marie Bipfubusa, Chantal Giroux, Chantal J. Beauchamp
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Abstract

Background

Winter climate change including frequent freeze-thaw episodes and shallow snow cover will have major impacts on the spring regrowth of perennial crops. Non-bloating perennial forage legume species including sainfoin, birdsfoot trefoil, red clover, and alsike clover have been bred for their adaptation to harsh winter conditions. In parallel, the selection of cold-tolerant rhizobial strains could allow earlier symbiotic nitrogen (N) fixation to hasten spring regrowth of legumes.

Methods

To identify strains forming nodules rapidly and showing high N-fixing potential, 60 rhizobial strains in association with four temperate legume species were evaluated over 11 weeks under spring soil temperatures for kinetics of nodule formation, nitrogenase activity, and host yield.

Results

Strains differed in their capacity to form efficient nodules on legume hosts over time. Strains showing higher nitrogenase activity were arctic strain N10 with sainfoin and strain L2 with birdsfoot trefoil. For clovers, nitrogenase activity was similar for control and inoculated plants, likely due to formation of effective nodules in controls by endophyte rhizobia present in seeds.

Conclusions

Selection based on nodulation kinetics at low temperature, nitrogenase activity, and yield was effective to identify performant rhizobial strains for legume crops. The use of cold-tolerant strains could help mitigate winter climatic changes.

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四种温带豆科植物低温结瘤动力学不同菌株的选育
背景冬季气候变化,包括频繁的冻融和浅雪覆盖,将对多年生作物的春季再生产生重大影响。为了适应恶劣的冬季条件,人们培育了不膨胀的多年生饲料豆类物种,包括海燕草、鸟足三叶草、红三叶草和类似苜蓿的植物。同时,选择耐寒的根瘤菌菌株可以使共生的氮(N)更早地固定,以加速豆类的春季再生。方法为了快速鉴定形成根瘤并显示出高固氮潜力的菌株,在春季土壤温度下,对60株根瘤菌与4种温带豆科植物的根瘤形成动力学、固氮酶活性和寄主产量进行了为期11周的评估。结果随着时间的推移,菌株在豆类寄主上形成有效根瘤的能力不同。表现出较高固氮酶活性的菌株是含有海燕蛋白的北极菌株N10和含有鸟足三叶草的菌株L2。对于丁香,对照和接种植物的固氮酶活性相似,这可能是由于种子中存在的内生根瘤菌在对照中形成了有效的根瘤。结论基于低温结瘤动力学、固氮酶活性和产量的筛选是鉴定豆科作物高效根瘤菌的有效方法。耐寒菌株的使用有助于缓解冬季气候变化。
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