Defoliation frequency and season affected radiation use efficiency and dry matter partitioning to roots of lucerne ( Medicago sativa L.) crops

• Published in: European journal of agronomy Vol. 28; no. 2; pp. 103 - 111
• Main Authors: Teixeira, Edmar I., Moot, Derrick J., Brown, Hamish E.
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 01.02.2008; Elsevier Science
• Subjects: Agronomy. Soil science and plant productions; Alfalfa; Biological and medical sciences; Carbon and nitrogen partitioning; crop yield; defoliation; dry matter accumulation; dry matter partitioning; Fundamental and applied biological sciences. Psychology; grazing; leaves; light intensity; Light use efficiency; Medicago sativa; nitrogen; nitrogen content; Photosynthesis; photosynthetically active radiation; plant nutrition; radiation use efficiency; Root reserves; roots; seasonal variation; Shoot/root ratio; shoots; Simulation modelling; solar radiation; weight; New Zealand; Oceania; Light use efficiency; Shoot/root ratio; Simulation modelling; Alfalfa; Photosynthesis; Carbon and nitrogen partitioning; Root reserves; Dry matter; Radiation use efficiency; Defoliation; Partitioning; Seasonal variation; Dicotyledones; Angiospermae; Lucerne; Metabolic storage; Translocation; Root; Medicago sativa; Nitrogen; Carbon; Leguminosae; Frequency; Spermatophyta; Fodder crop; Shoot
• ISSN: 1161-0301; 1873-7331
• DOI: 10.1016/j.eja.2007.05.004

Radiation use efficiency (RUE), and subsequent partitioning between shoots and roots were investigated for ‘Grasslands Kaituna’ lucerne crops grown in the cool temperate climate of Canterbury, New Zealand. Crops were grazed by sheep every 28 or 42 day and yielded 12 and 23 t DM/ha year, respectively. The RUE for above ground shoots (RUE shoot) was 1.7–2.0 g DM/MJ of intercepted photosynthetically active radiation (PAR i) in spring but decreased systematically to ≤1.0 g DM/MJ PAR i in autumn. The RUE for total biomass (RUE total) ranged from 1.3 to 3.1 g DM/MJ PAR i in response to air temperature and defoliation treatment. The lowest RUE total in mid-summer for the treatment defoliated every 28 days was related to a 20% decline in the leaf photosynthetic capacity measured at 1000 μmol photons/m 2 s (Pn 1000) and at saturating light ( P max). In turn, the reduction in Pn 1000 was related to differences in specific leaf nitrogen (SLN), through changes in specific leaf weight (SLW) rather than the leaf N concentration of 4–6% DM. The fractional partitioning of DM to roots ( p root) increased from near zero in winter/early-spring to >0.45 in autumn, which explained the observed seasonality of RUE shoot. For the treatment defoliated each 42 days, p root increased linearly from ∼0.05 to >0.45 as Pp increased from 10.5 to 16.5 h. In decreasing photoperiods p root averaged 0.45. Agronomic treatments that result in suboptimal N reserves post-grazing can be expected to produce conservative canopy characteristics but reduced photosynthetic capacity of the first five main stem leaves. Beyond this development stage, canopy expansion may be reduced with more conservative leaf N.