Firm spin and parity assignments for high-lying, low-spin levels in stable Si isotopes

A natural silicon target was investigated in a natSi(γ, γ′) photon-scattering experiment with fully linearly-polarised, quasi-monochromatic γ rays in the entrance channel. The mean photon energies used were ⟨ Eγ⟩ = 9.33, 9.77, 10.17, 10.55, 10.93, and 11.37 MeV, and the relative energy spread (full width at half maximum) of the incident beam was ΔEγ/ ⟨ Eγ⟩ ≈ 3.5–4 %. The observed angular distributions for the ground-state decay allow firm spin and parity assignments for several levels of the stable even-even silicon isotopes

Productivity of the forest band system on Chernozeme of the Southern steppe of the Volga Region

The aim of the research was to study the state and productivity of Quercus robur L. when mixed with associated species - Fraxinus lanceolata L. and Acer platanoides L. in the forest band system and in forest bands reinforced with grooves for additional moisture accumulation. The investigations were carried out in the agro-forest landscapes of the steppes of the Volga Upland on the southern chernozem heavy loam with a humus content of 4.5%. In many respects, the productivity of Qvercus robur L. in forest belts depends on the applied mixing scheme, the selection of the accompanying rock, and the timely agrotechnical and silvicultural care in the created forest belts. In recent decades, silvicultural care (harvesting, sanitary, and reforestory cutting) is practically not carried out due to the changed economic situation in forestry and forest melioration in Russia. Therefore, the state and productivity of forest belts with Qvercus robur L. largely depends on the choice of the accompanying tree species that will grow in the forest belt along with Qvercus robur L. Optimal matching schemes for mixing Qvercus robur L. with associated tree species allow for maximum productivity and durability of the forest belt. Studies have shown that when mixing Qvercus robur L. and Acer platanoides L. growth Qvercus robur L. in height and diameter, respectively, by 5% and 14% greater than the growth of Qvercus robur L. when mixed with Fraxinus lanceolata L. Val ditch in the forest band, absorbing additional moisture, contributes to an increase in the intensity of growth of Qvercus robur L. by 10-12%

Productivity of the forest band system on Chernozeme of the Southern steppe of the Volga Region

The aim of the research was to study the state and productivity of Quercus robur L. when mixed with associated species - Fraxinus lanceolata L. and Acer platanoides L. in the forest band system and in forest bands reinforced with grooves for additional moisture accumulation. The investigations were carried out in the agro-forest landscapes of the steppes of the Volga Upland on the southern chernozem heavy loam with a humus content of 4.5%. In many respects, the productivity of Qvercus robur L. in forest belts depends on the applied mixing scheme, the selection of the accompanying rock, and the timely agrotechnical and silvicultural care in the created forest belts. In recent decades, silvicultural care (harvesting, sanitary, and reforestory cutting) is practically not carried out due to the changed economic situation in forestry and forest melioration in Russia. Therefore, the state and productivity of forest belts with Qvercus robur L. largely depends on the choice of the accompanying tree species that will grow in the forest belt along with Qvercus robur L. Optimal matching schemes for mixing Qvercus robur L. with associated tree species allow for maximum productivity and durability of the forest belt. Studies have shown that when mixing Qvercus robur L. and Acer platanoides L. growth Qvercus robur L. in height and diameter, respectively, by 5% and 14% greater than the growth of Qvercus robur L. when mixed with Fraxinus lanceolata L. Val ditch in the forest band, absorbing additional moisture, contributes to an increase in the intensity of growth of Qvercus robur L. by 10-12%