AUTHOR=Yang Jiashuo , Hu Wei , Zhao Wenqing , Chen Binglin , Wang Youhua , Zhou Zhiguo , Meng Yali 

TITLE=Fruiting Branch K+ Level Affects Cotton Fiber Elongation Through Osmoregulation

JOURNAL=Frontiers in Plant Science

VOLUME=7

YEAR=2016

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2016.00013

DOI=10.3389/fpls.2016.00013

ISSN=1664-462X

ABSTRACT=<p>Potassium (K) deficiency in cotton plants results in reduced fiber length. As one of the primary osmotica, K<sup>+</sup> contributes to an increase in cell turgor pressure during fiber elongation. Therefore, it is hypothesized that fiber length is affected by K deficiency through an osmotic pathway, so in 2012 and 2013, an experiment was conducted to test this hypothesis by imposing three potassium supply regimes (0, 125, 250 kg K ha<sup>-1</sup>) on a low-K-sensitive cultivar, <italic>Siza 3</italic>, and a low-K-tolerant cultivar, <italic>Simian 3</italic>. We found that fibers were longer in the later season bolls than in the earlier ones in cotton plants grown under normal growth conditions, but later season bolls showed a greater sensitivity to low-K stress, especially the low-K sensitive genotype. We also found that the maximum velocity of fibre elongation (<italic>V</italic><sub>max</sub>) is the parameter that best reflects the change in fiber elongation under K deficiency. This parameter mostly depends on cell turgor, so the content of the osmotically active solutes was analyzed accordingly. Statistical analysis showed that K<sup>+</sup> was the major osmotic factor affecting fiber length, and malate was likely facilitating K<sup>+</sup> accumulation into fibers, which enabled the low-K-tolerant genotype to cope with low-K stress. Moreover, the low-K-tolerant genotype tended to have greater K<sup>+</sup> absorptive capacities in the upper fruiting branches. Based on our findings, we suggest a fertilization scheme for <italic>Gossypium hirsutum</italic> that adds extra potash fertilizer or distributes it during the development of late season bolls to mitigate K deficiency in the second half of the growth season and to enhance fiber length in late season bolls.</p>