Publications by authors named "H Lambers"
Coarse roots represent a globally important belowground carbon pool, but the factors controlling coarse root decomposition rates remain poorly understood relative to other plant biomass components. We compiled the most comprehensive dataset of coarse root decomposition data including 148 observations from 60 woody species, and linked coarse root decomposition rates to plant traits, phylogeny and climate to address questions of the dominant controls on coarse root decomposition. We found that decomposition rates increased with mean annual temperature, root nitrogen and phosphorus concentrations.
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- Recent research indicates a trade-off between silicon and carbon-based compounds in plants, with a specific focus on stress resistance and mechanical support.
- This study examined 17 species from the Cyperaceae family, using both leaf trait measurements and advanced microscopic techniques.
- Findings revealed that the accumulation of silicon negatively correlates with tannins and epicuticular waxes, suggesting complex strategies in plant responses to environmental stresses that previous whole-leaf analyses overlooked.
Biochar application emerges as a valuable soil management strategy for enhancing crop yield; however, the mechanisms underlying the relationships between soil and plants remain unclear after biochar application. In this study, soil pore characteristics and maize yield were assessed in a five-year biochar-application experiment on the Loess Plateau of China, including four treatments: Control (no biochar), low-dose biochar application (LB, 3 t ha), moderate-dose biochar application (MB, 6 t ha), and high-dose biochar application (HB, 9 t ha). Root growth traits were evaluated by cultivating maize in intact soil cores collected from field conditions using X-ray computed tomography.
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- Soybean domestication has improved photosynthetic phosphorus-use efficiency (PPUE), but the effects on leaf traits and efficiency are still not fully understood.
- A study involving 48 soybean accessions revealed that cultivars exhibited better photosynthesis rates and PPUE compared to wild relatives, which had higher leaf P concentration.
- The research suggests that increased PPUE in domesticated soybeans is linked to enhanced photosynthesis and changes in leaf anatomy, emphasizing the importance of P allocation and structure in improving soybean phosphorus use efficiency.