Tree Regeneration by Seeds in Natural Forests

Seed quality and production are major factors governing the regeneration, structure, and succession of trees in natural forests [...]

competitive pressure. In addition, the genetic diversity of naturally germinating seedlings was analysed.
Controlled experiments at three forest nurseries with different climate conditions tested the possibility of using the so-called minimal seedbed tillage system (scarifying followed by rototilling) in comparison with traditional ones (plowing, disk harrowing and cultivating) [11]. Some morphometric parameters were investigated in young trees of four forest tree species: pedunculate oak (Quercus robur), common ash (Fraxinus excelsior), wild cherry (Prunus avium), and Norway spruce (Picea excelsa). The results indicate highly significant gains in growth of the root collar diameter and shoot height in all tested trees, and root volume growth on pedunculate oak under minimal seedbed tillage system. The description of the minimal seedbed tillage system is part of the methodology of this paper.
High seed production does not guarantee successful regeneration. Orlović et al. [12] observed different storage regimes for pedunculate oak acorns depending on the occurrence of internal mycobiota and seed germination. The study confirmed the efficiency of thermotherapy in the eradication of a proportion of acorn internal mycobiota, but also its effect on the proliferation of fast-colonizing fungi during storage. Different efficacies have been discussed, especially with regard to the following fungi: Fusarium solani, Alternaria alternata, Tubakia dryina, and Penicillium glandicola.
An important ecological adaptation is seed dormancy, which allows dispersal in time and space and which prevents the simultaneous germination of all new produced seeds [13]. Sun et al. [14] examined both seed morphology and germination in Quercus chungii (syn. Cyclobalanopsis chungii) and they aimed to describe seed dormancy. Epicotyl physiological dormancy was documented in Q. chungii (formula: Cnd(root)-Cp" 2b(shoot)) and much information was given about its early growth. Such a type of seed dormancy has never been previously reported in Quercus, section Cyclobalanopsis. This documentation of seed germination will provide guidance for the conservation and restoration of Q. chungii from acorns. Q. chungii is mainly distributed in the montane lowland forests of East and South China.
The team of Scolforo et al. [15] searched for a growth model of Brazil nut (Bertholletia excelsa) in two Brazilian Amazon forests, comparing the secondary forest with the old growth terra firme forest. The growth models were fitted at the species level to predict the diameter growth rate. The age at which the Brazil nut tree in each forest environment reaches the minimum diameter for seed production was calculated by integrating the growth models. According to their conclusion, the secondary forest seems a favourable forest environment for the growth of this tree species, which may be an indicator of the potential for secondary forest environments to produce Brazil nut seeds in the future.
Seed surface disinfection has traditionally been one of the most important topics in seed science. The aim of the study byŚwiecimska et al. [16] was to describe the effect of nonthermal plasma treatment (nine different exposure times were used, including the control) for the disinfection of Scots pine (Pinus sylvestris) seed surfaces artificially infected with Fusarium oxysporum spores. The optimal time for nonthermal plasma treatment of Scots pine was 3 s, because such treatment inhibited fungal growth, and additionally increased the seed germination. Pines are production forest trees, so the use of nonthermal plasma to disinfect the surface of their seeds and stimulate germination seems to be an important direction for current research [16,17].
The growth of trees from seeds is an important factor in plant evolution and in the development of an optimal state of vegetation, communities, and ecosystems. Knowledge of the natural regeneration of forests is important for developing scientific models, techniques and new guidelines to conserve dwindling natural forest areas. The articles presented in this Special Issue are a small contribution to the broad issues contained within this topic.

Conflicts of Interest:
The authors declare no conflict of interest.