Nagoya University scientists have developed a method for the direct observation of fine roots, which control the uptake of nutrients and water by trees. This provides a valuable addition to the existing knowledge of carbon and nutrient cycling in the forest floor, leading to further understanding of the carbon cycle from the view point of initial carbon input into the soil and aiding forest management and soil conservation.
Fallen tree leaves on the forest floor are called leaf litter. Although scientists can examine leaf litter on the surface of soil by collecting it using litter traps, studying what is happening underground is much more difficult. Decomposing in a comparable way to leaf litter, root litter refers to shed tree roots that have aged and died. Investigating root litter is tough, but it is especially challenging to study the litter of fine roots, those roots 2 mm or less in diameter, which control the uptake of nutrients and water by trees.
Although previous studies using methods such as soil core sampling and minirhizotron observation have demonstrated the life span of fine roots, no one has directly observed the complete fine root shedding process and collected fine root litter for evaluation. As a result, understanding of the role of fine root litter remains insufficient.
To clarify the process of fine root shedding and to better understand the morphological characteristics of root litter, researchers at Nagoya University in central Japan have developed an improved method to assess the origins and amounts of root litter in forest soil. The new method, developed by a team led by Associate Professors Yasuhiro Hirano and Toko Tanikawa of the Graduate School of Environmental Studies and published in Ecological Indicators, allows the fine root system to incubate in the field and the collection of shed roots for analysis. This research improves analysis of the composition of forest soil and helps to better understand the carbon cycle of the forest floor.
In their study, the researchers inserted roots from Japanese cypress (Chamaecyparis obtusa), still attached to the tree, into modified centrifuge tubes filled with glass beads and nutrients. They collected a sample at regular intervals, allowing them to measure the rate of shedding each month and to estimate the lifespan of fine roots. Hirano and Tanikawa succeeded in directly sampling fine root litter, and found that the trees discarded fine roots every month. They also noted that the seasonal difference in the amount of root shedding was not as great as in leaf shedding. Despite similar annual amounts of the two types of litter, the timing of the tissue carbon input into the soils differed between the leaf and fine root litter. The researchers also found that over the course of a year approximately 58% of the roots in their sample were shed. Therefore, they calculated an average fine root lifespan of about 1.7 years.
Confirming the hypothesis that fine roots and leaves are discarded and decompose differently provides a valuable addition to the existing knowledge of carbon and nutrient cycling in the forest floor. The researchers believe that experts will be able to use their new method to accurately gauge the amounts of roots shed and to collect fine root litter to use as an ecological indicator in forest ecosystems. This should lead to further understanding of the carbon cycle from the view point of initial carbon input into the soil, aiding forest management and soil conservation for sustainable development goals.