Multiseriate cortical sclerenchyma enhance root penetration in compacted soils

Schneider, Hannah M; Strock, Christopher F; Hanlon, Meredith T; Vanhees, Dorien J; Perkins, Alden C; Ajmera, Ishan B; Singh Sidhu, Jagdeep; Mooney, Sacha J; Brown, Kathleen M; Lynch, Jonathan P

doi:10.1073/pnas.2012087118

All Outputs (4)

Long‐term zero‐tillage enhances the protection of soil carbon in tropical agriculture (2021)
Journal Article
Cooper, H. V., Sjögersten, S., Lark, R. M., Girkin, N. T., Vane, C. H., Calonego, J. C., …Mooney, S. J. (2021). Long‐term zero‐tillage enhances the protection of soil carbon in tropical agriculture. European Journal of Soil Science, 72(6), 2477-2492. https://doi.org/10.1111/ejss.13111

Contrasting tillage strategies not only affect the stability and formation of soil aggregates but also modify the concentration and thermostability of soil organic matter associated with soil aggregates. Understanding the thermostability and carbon r... Read More about Long‐term zero‐tillage enhances the protection of soil carbon in tropical agriculture.

To till or not to till in a temperate ecosystem? Implications for climate change mitigation (2021)
Journal Article
Cooper, H. V., Sjögersten, S., Lark, R. M., & Mooney, S. J. (2021). To till or not to till in a temperate ecosystem? Implications for climate change mitigation. Environmental Research Letters, 16(5), Article 054022. https://doi.org/10.1088/1748-9326/abe74e

The management of agricultural soils affect the composition and scale of their greenhouse gas (GHG) emissions. There is conflicting evidence on the effect of zero-tillage on carbon storage and GHG emissions. Here we assess the effects of zero-tillage... Read More about To till or not to till in a temperate ecosystem? Implications for climate change mitigation.

The ability of maize roots to grow through compacted soil is not dependent on the amount of roots formed (2021)
Journal Article
Vanhees, D. J., Loades, K. W., Bengough, A. G., Mooney, S. J., & Lynch, J. P. (2021). The ability of maize roots to grow through compacted soil is not dependent on the amount of roots formed. Field Crops Research, 264, Article 108013. https://doi.org/10.1016/j.fcr.2020.108013

© 2020 Elsevier B.V. Mechanical impedance is a primary constraint to root growth and hence the capture of soil resources. To investigate whether rooting depth and root length under mechanical impedance caused by compaction are correlated we evaluated... Read More about The ability of maize roots to grow through compacted soil is not dependent on the amount of roots formed.

Multiseriate cortical sclerenchyma enhance root penetration in compacted soils (2021)
Journal Article
Schneider, H. M., Strock, C. F., Hanlon, M. T., Vanhees, D. J., Perkins, A. C., Ajmera, I. B., …Lynch, J. P. (2021). Multiseriate cortical sclerenchyma enhance root penetration in compacted soils. Proceedings of the National Academy of Sciences, 118(6), Article e2012087118. https://doi.org/10.1073/pnas.2012087118

Mechanical impedance limits soil exploration and resource capture by plant roots. We examine the role of root anatomy in regulating plant adaptation to mechanical impedance and identify a root anatomical phene in maize (Zea mays) and wheat (Triticum... Read More about Multiseriate cortical sclerenchyma enhance root penetration in compacted soils.