North American Agroforestry. Группа авторов

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Название North American Agroforestry
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9780891183839



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1,464.0 a 1,586.0 a 1,133.0 a 1,370.0 a 1,045.0 b 1,558.0 a Yield, t ha−1 2.51 a 2.59 a 1.04 b 1.97 a 1.29 b 2.00 a 1998 soybean PAR, mmol s−1 m−2 1,405.0 a 1,158.0 a 746.0 b 1,296.0 a 670.0 b 1,336.0 a Yield, t ha−1 2.24 a 2.25 a 1.15 b 1.67 a 1.55 b 2.85 a 1997 maize PAR, mmol s−1 m−2 1,528.0 a 1,579.0 a 952.0 b* 1,407.0 a* 1,075.0 b* 1,525.0 a* Yield, t ha−1 4.21 a 4.83 a 2.89 b 4.61 a 2.07 b 4.64 a 1998 maize PAR, mmol s−1 m−2 1,422.0 a 1,200.0 a 794.0 b 1,117.0 a 481.0 b 1,420.0 a Yield, t ha−1 5.70 a 5.88 a 0.69 b 5.29 a 3.79 b 7.07 a

      Note. Soybean and maize intercrops, July 1997 and July 1998. Within each treatment (control, poplar, maple), values in each row followed by the same letter are not significantly different (Tukey’s HSD, P < 0.05).

      * Significant at the 10% level.

      The physiological basis of yield reduction due to shading has been investigated by several studies in temperate agroforestry systems (Albaugh et al., 2014; Ehret, Graß, & Wachendorf, 2015; Miller & Pallardy, 2001; Reynolds et al., 2007). Shading changes the quality of light reaching the understory canopy (Krueger, 1981). Since overhead canopies absorb both the longest and shortest wavelengths of the light spectrum (red and blue), diffuse radiation is primarily composed of medium‐wavelength light (orange, yellow, and green). Growth regulating hormones and, therefore, growth are influenced by the interactions of the plant phytochrome system with red and infrared wavelengths (Baraldi, Bertazza, Bogino, Luna, & Bottini, 1995). Inadequate exposure to red light is known to influence stem production in clover (Trifolium sp.) (Robin, Hay, Newton, & Greer, 1994), tillering in grasses (Davis & Simmons, 1994a), flowering (Davis & Simmons, 1994b), and other basic plant growth processes (Sharrow, 1999).