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decomposition
Contrasting responses to aridity by different-sized decomposers cause similar decomposition rates across a precipitation gradient
Torsekar, V. R.; Sagi, N.; Johnson, A. D.; Hawlena, Y.; Gavish-Regev, E.; Hawlena, D.
biorxiv
. 2023-06-12. Preprint
Source:biorxiv
PPRID:
10.1101/2023.06.04.541603v2
doi:NA
Contrasting responses to aridity by different-sized decomposers cause similar decomposition rates across a precipitation gradient
Torsekar, V. R.; Sagi, N.; Johnson, A. D.; Hawlena, Y.; Gavish-Regev, E.; Hawlena, D.
biorxiv
. 2023-06-05. Preprint
Source:biorxiv
PPRID:
10.1101/2023.06.04.541603v1
doi:NA
Contrasting responses to aridity by different-sized decomposers cause similar decomposition rates across a precipitation gradient
Torsekar, V. R.; Sagi, N.; Johnson, A. D.; Hawlena, Y.; Gavish-Regev, E.; Hawlena, D.
biorxiv
. 2023-06-20. Preprint
Source:biorxiv
PPRID:
10.1101/2023.06.04.541603v3
doi:NA
Evaluating the tea bag method as a potential tool for detecting the effects of added nutrients and their interactions with climate on litter decomposition
Mori, T.; Hashimoto, T.; Sakai, Y.
biorxiv
. 2021-01-30. Preprint
Source:biorxiv
PPRID:
10.1101/2021.01.28.428520v1
doi:NA
[Effects of fullerene soot on the thermal decomposition and Fourier transform infrared spectrum of PEG].
Xu Han, Shu-fen Li, Feng-qi Zhao, Qing Pan, Jian-hua Yi
Guang Pu Xue Yu Guang Pu Fen Xi
. Dec, 2008.28(12):2789-92 Print
Source:PubMed
PMID:
19248484
doi:
The effect of body size on the rate of decomposition in a temperate region of South Africa.
A Sutherland, J Myburgh, M Steyn, P J Becker
Forensic Sci Int
. Sep 10, 2013.231(1-3):257-62 Print-Electronic
Source:PubMed
PMID:
23890647
doi:10.1016/j.forsciint.2013.05.035
Shrub encroachment in Arctic tundra: Betula nana effects on above- and belowground litter decomposition.
Jennie R McLaren, Kate M Buckeridge, Martine J van de Weg, Gaius R Shaver, Joshua P Schimel, Laura Gough
Ecology
. May, 2017.98(5):1361-1376 Print-Electronic
Source:PubMed
PMID:
28263375
doi:10.1002/ecy.1790
Theoretical study of water cluster catalyzed decomposition of formic acid.
Satoshi Inaba
J Phys Chem A
. Apr 24, 2014.118(16):3026-38 Print-Electronic
Source:PubMed
PMID:
24735438
doi:10.1021/jp5021406
Adaptive Complex Variational Mode Decomposition for Micro-Motion Signal Processing Applications.
Saiqiang Xia, Jun Yang, Wanyong Cai, Chaowei Zhang, Liangfa Hua, Zibo Zhou
Sensors (Basel)
. Feb 26, 2021.21(5): Electronic
Source:PubMed
PMID:
33652710
doi:10.3390/s21051637
A Case Study of Polyetheretherketone (II): Playing with Oxygen Concentration and Modeling Thermal Decomposition of a High-Performance Material.
Aditya Ramgobin, Ga��lle Fontaine, Serge Bourbigot
Polymers (Basel)
. Jul 16, 2020.12(7): Electronic
Source:PubMed
PMID:
32708563
doi:10.3390/polym12071577
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