应用胚挽救技术获得三倍体柑橘植株

以3个柑橘异源四倍体体细胞杂种(即四倍体粗柠檬与哈姆林甜橙体细胞杂种,简称"HR";酸柚与粗柠檬体细胞杂种,简称"SR";墨西哥来檬与伏令夏甜橙体细胞杂种,简称"KV")为父本,分别与二倍体单胚性沙田柚进行有性杂交,在有性胚还没有完全败育以前,通过胚抢救技术进行三倍体植株培养(以四季柚花粉亲本为对照)。结果表明,处理的杂交组合直接成苗率极显著低于对照(P0.01),其中又以沙田柚×HR组合成苗率相对较高,达10.1%;较适合瘪籽沙田柚幼胚离体培养的培养基是MT+GA31.0mg/L+蜂皇浆200mg/L+水解乳蛋白250mg/L+蔗糖30g/L+琼脂0.7%;流式细胞分析仪检测结果显示,本试验成功获得了柑橘三倍体植株。     

Variation in the content of bioflavonoids of orange as affected by scion,rootstock, and fruit part

Fruits of citrus cultivars contain bioflavonoids and some other important secondary metabolites in pharmaceutical and nutritional industries. The present experiment was designed to investigate the correlation between the content of flavonoid components like naringin, hesperidin, and neohesperidin of the scions fruits and the same parameters in rootstocks fruits. Six-year-old trees including four citrus cultivars of ‘Moro’, ‘Mars’, ‘Salustiana’, and ‘Italian’ which were previously grafted on the four different rootstocks including ‘Yuzu’, ‘Shelmahalleh’, ‘Citromelo’, and ‘Sour orange’ were selected as experimental trees. The content of the mentioned flavonoids was investigated in the peel and pulp of the fruits of both scions and rootstocks. The results showed that the measured parameters were significantly influenced by scions, rootstocks, and tissues. Based on the obtained results, it can be suggested that the accumulation of chemicals in citrus fruit depends on genetic and inherent abilities of the scion, more than what was previously believed, while the rootstock can also play an important role in the accumulation of these substances.     

Development,histological observations and Grapevine leafroll‐associated virus‐3 localisation in in vitro grapevine micrografts

Development, histological process and Grapevine leafroll‐associated virus‐3 localisation were studied in micrografts of three scion/rootstock combinations: healthy/healthy, healthy/infected and infected/healthy. Earlier bud break and faster growth in scions of micrografts were obtained when the healthy shoot segments were used as scions, while earlier bud break in rootstocks and greater fresh weight of roots in micrografts were produced when the healthy shoot segments were used as rootstocks. All histological processes including callus initiation and formation in micrografting conjunctions, and initiation of new cambial cells followed by vascular bundle development connecting scions and rootstocks were similar in micrografts, regardless of the sanitary status of the scions and rootstocks used for micrografting. Virus infection in micrografting conjunctions and systematic infection in micrografts were much more efficient and faster in micrografting combination of the infected scions/healthy rootstocks than in the healthy scions/infected rootstocks. To the best of our knowledge, this is the first report addressing histological process of micrograft development and virus localisation in micrografts. In vitro culture system established in this study facilitates studies on the ‘pure’ impact of the viral infection on micrografting.     

应用柑橘异源四倍体杂种花粉生产瘪籽沙田柚果实

以3个柑橘异源四倍体体细胞杂种(即四倍体粗柠檬与哈姆林甜橙体细胞杂种,简称"HR";酸柚与粗柠檬体细胞杂种,简称"SR";墨西哥来檬与伏令夏甜橙体细胞杂种,简称"KV")为父本,分别与二倍体单胚性沙田柚进行有性杂交,在生产上获得瘪籽沙田柚果实,并对果实品质进行分析(以四季柚花粉亲本为对照)。结果表明:授予柑橘异源四倍体杂种花粉的果实种子败育十分明显,果实瘪籽率达41.4%～96.0%,与对照间的差异极显著(P0.01);但果实单果重、果肉重、果皮重、果皮厚和果形指数与对照间无显著性差异(P0.05);果实可溶性固形物、全糖、Vc和可滴定酸含量与对照也无明显变化,且较适合于瘪籽沙田柚果实生产的体细胞杂种是HR和SR。     

Root and stem hydraulic conductivity as determinants of growth potential in grafted trees of apple (Malus pumila Mill.)

The anatomy of the graft tissue between a rootstock and its shoot (scion) can provide a mechanistic explanation of the way dwarfing Malus rootstocks reduce shoot growth. Considerable xylem tissue disorganization may result in graft tissue having a low hydraulic conductivity (k(h)), relative to the scion stem. The graft may influence the movement of substances in the xylem such as ions, water and plant-growth-regulating hormones. Measurements were made on 3-year-old apple trees with a low-pressure flow system to determine k(h) of root and scion stem sections incorporating the graft tissue. A range of rootstocks was examined, with different abilities of dwarfing; both ungrafted and grafted with the same scion shoot cultivar. The results showed that the hydraulic conductivity (k(hroot)) of roots from dwarfing rootstocks was lower compared with semi-vigorous rootstocks, at least for the size class of root measured (1.5 mm diameter). Scion hydraulic conductivity (k(hs)) was linked to leaf area and also to the rootstock on to which it was grafted, i.e. hydraulic conductivity was greater for the scion stem on the semi-vigorous rootstock. Expressing conductivities relative to xylem cross-sectional areas (k(s)) did not remove these differences suggesting that there were anatomical changes induced by the rootstock. The calculated hydraulic conductivity of the graft tissue was found to be lower for grafted trees on dwarfing rootstocks compared to invigorating rootstocks. These observations are discussed in relation to the mechanism(s) by which rootstock influences shoot growth in grafted trees.     

In vitro micrografting for production of Indian citrus ringspot virus (ICRSV)-free plants of kinnow mandarin (Citrus nobilis Lour × C. deliciosa Tenora)

Production of Indian citrus ringspot virus (ICRSV)-free plants from an infected plant of kinnow mandarin (Citrus nobilis Lour × C. deliciosa Tenora) is reported. The shoot apices of different sizes (0.2–1.0 mm) excised from the ICRSV-infected plant were micrografted onto decapitated rootstock seedlings of rough lemon (C. jambhiri). Micrograft survival depended on the size of shoot apex and the sucrose concentration of the culture medium. Increase in scion size from 0.2 to 0.7 mm resulted in an increase in micrografting success rate from 30.55 to 51.88%. Further, micrograft survival obtained with 0.2 mm was improved from 30.55 to 38.88% by increasing sucrose concentration in the culture media from 5 to 7.5%. The micrografted plants were tested for ICRSV using ELISA and RT-PCR. All plants raised from 0.2-mm scion were found negative with both ELISA and RT-PCR whereas only 20% of the ELISA negative plants raised from 0.3-mm scion were found negative for ICRSV with RT-PCR. The outcome of this research is the successful establishment, acclimatization and virus testing of micrografted plants.     

Effects of transgenic rootstocks on growth and development of non-transgenic scion cultivars in apple

Although cultivation of genetic modified (GM) annual crops has been steadily increasing in the recent 10 years, the commercial cultivation of GM fruit tree is still very limited and reports of field trials on GM fruit trees are rare. This is probably because development and evaluation of GM fruit trees require a long period of time due to long life cycles of trees. In this study, we report results from a field trial on three rolB transgenic dwarfing apple rootstocks of M26 and M9 together with non-transgenic controls grafted with five non-transgenic scion cultivars. We intended to investigate the effects of transgenic rootstock on non-transgenic scion cultivars under natural conditions as well as to evaluate the potential value of using the rolB gene to modify difficult-to-root rootstocks of fruit trees. The results showed that all rolB transgenic rootstocks significantly reduced vegetative growth including tree height regardless of scion cultivar, compared with the non-transgenic rootstocks. Flowering and fruiting were also decreased for cultivars grown on the transgenic rootstocks in most cases, but the fruit quality was not clearly affected by the transgenic rootstocks. Cutting experiment and RT-PCR analysis showed that the rolB gene was stably expressed under field conditions. PCR and RT-PCR analyses displayed that the rolB gene or its mRNA were not detectable in the scion cultivars, indicating no translocation of the transgene or its mRNA from rootstock to scion. Our results suggest that rolB modified rootstocks should be used in combination with vigorous scion cultivars in order to obtain sufficient vegetative growth and good yield. Alternatively, the rolB gene could be used to dwarf vigorous rootstocks of fruit trees or produce bonzai plants as it can significantly reduce the vegetative growth of plants.     

A Numerical Taxonomic Study of Citrus and Its Close Relatives

Fifty nine taxa of Citrus, Fortunella and Poncirus were studied by hierarchical agglomerative clustering analysis and quantas type 3 analysis using 86 morphological characters. Five affinity groups were obtained in Citrus. The first group includes C. medica, C. limon, C. limonia, C. aurantifolia and C. iambhiri; the second includes C. grandis, C. aurantium, C. sinensis and C. paradisi; the third is mandarin (C. reticulata); the forth is C. ichangensis; The last is C. hongheensis. Mandarin oranges show two subgroups: one comprise satsuma, King, Shagan, Tankan and Bendiguangju, and the other consists of the remaining typical mandrins. The two papeda oranges, honghe papeda and ichang papeda, could not be clustered into the same group, indicating that they might have evolved from two compeletly different ancestors. Pumelos(C. grandis) show some relationships to honghe papeda orange. C. limonia is assumed to be a hybrid between rough lemon and mandarin. The sweet orange(C. sinensis) is considered to be the offspring of pomelo and mandarin. Zhekiang jinju a small mandarin generally considered similar to calamondin in China, should be a true mandarin orange based on our results. Poncirus was well distinguished from the other two genera, Citrus and Fortunella, by the numerical methods used in this study. Our results show that citron (C. medica), mandarin (C. reticulata) and pumelo (C. grandis) are the original species of the subgenus Citrus, which was congruent with the re-sults obtained by Barrett and Soost (1976), Potvin (1983) and Handa (1985).     

Effects of infestation with fruit tree red spider mite, Panonychus ulmi (Koch), on the growth and cropping of young fruit trees

When Brompton plum, and M. IV and Crab C apple rootstocks grown in pots were inoculated with fruit tree red spider mites (Panonychus ulmi (Koch)), shoot extension was decreased by 7–17%, the dry weight of the new shoot by 21–32%, and the dry weight increments of old stem and roots by 12–30%, and 7–50%, respectively, compared with control plants sprayed with the acaricide tetradifon. Some of these effects were found in a field experiment with Brompton plum, but not with potted M. I apple rootstocks. Infestation of fruiting Lord Lambourne apple trees, also in pots, had little effect on vegetative growth but in one experiment modified fruit setting, and decreased the dry-matter content, but increased the seed content of harvested fruit. Lighter inoculation caused no damage to Brompton plum. Spraying inoculated Brompton plum rootstocks with tetradifon + TEPP in mid-June and mid-July prevented damage, and though August sprays did not prevent damage to the new shoot, the decreases in dry weight increments of old stem and roots were only 9–13% and 11–19%, respectively, compared with 21–25% and 45–50% in infested, unsprayed plants.     

Modification of gibberellin biosynthesis in the grafted apple scion allows control of tree height independent of the rootstock

The availability of short stature apple scions that required minimal applications of chemical growth retardants and could be used with a range of rootstocks would be of considerable benefit to fruit growers. We have suppressed the expression of a gene encoding the gibberellin (GA) biosynthetic enzyme GA 20-oxidase to reduce the levels of bioactive GAs in a scion variety, resulting in significant reductions in stem height. Application of GA3 reversed the effect. The scion remained dwarfed after grafting on to normally invigorating rootstocks, whilst control plants of the same cultivar displayed the expected vigour when grafted on to these rootstocks. This approach could be applicable to any perennial crop variety, allowing dwarf trees to be obtained on any available rootstock or on their own roots without the need for chemical growth retardant application. In effect, seedlings that are well suited to local conditions (drought, salinity) could be employed as tree rootstocks, as could existing rootstocks valued for characters other than vigour control, such as pest and disease resistance.     

In vitro Micrografting of Mature Pistachio (Pistacia vera var. Siirt)

The success of various in vitro micrografting methods of shoot tips of pistachio (Pistacia vera L. var. Siirt) have been examined. Excised zygotic embryos that germinated in vitro were used as rootstocks. Current year shoot tips from mature trees of pistachio micrografted onto in vitro juvenile rootstocks, resulted in the restoration of shoot-bud proliferation. Variables tested include a size of microscion, grafting method, effects of culture medium and effects of time of the year at which shoot tips were used. The results indicate that the easiest and most successful method for grafting was slit micrografting. High levels of micrograft take were achieved with 2–4 mm (56.75%) and 4–6 mm (79.25%) long scions obtained from the regenerated shoot tips. The survival rate of the shoot tips was directly related to time of the year. The best growth of microscion was obtained with the in vitro forced shoot tips rather than with shoot tips excised from tree. Slow growth and lack of axillary shoot development on the micrografts was noticeable when the micrografts were cultured on hormone-free and germination medium. In vitro micrografted plantlets were successfully weaned and no problems were encountered with the establishment of micrografted plants in vivo.     

The influence of micrografting in vitro on tissue culture behavior and vegetative propagation of old European larch trees

The influence of a new micrografting method in vitro was tested by using long shoot meristems of adult 140 year old European larch trees grafted onto larch seedling rootstocks in sterile peat pellets. Five months after grafting and transfer of grafts to ex vitro conditions, new shoots from sprouting scions were re-established into tissue culture. The propagation behavior of shoots derived from these explants was compared with shoots established via bud culture from the same donor trees. Shoot explants from micrografts multiplied more rapidly than shoots explants from the original adult donor trees. Rooting experiments with cuttings from six micrografted clones resulted in 49.9 ± 11.9% rooting. Cuttings from donor trees invariably showed no root formation. The results confirm a rejuvenating influence of micrografting in larch.     

Citrus cryopreservation: viability of diverse taxa and histological observations

Diverse citrus cultivars maintained clonally within gene banks serve as valuable resources for research and breeding programs worldwide. These critical collections are kept as trees within field, screenhouse, or greenhouse collections. Ex situ collections are at risk of being lost due to unforeseen environmental or biological disasters. Cryopreservation provides a secure method to back-up these important collections. Herein, we assessed the applicability of a vitrification-based cryopreservation method to conserve citrus collection cultivars. Shoot tips were excised from screenhouse-grown trees from the USDA-ARS National Clonal Germplasm Repository for Citrus and Dates. Shoot tips were then treated with cryoprotectants, plunged into liquid nitrogen (LN), warmed and then recovered by micrografting onto ‘Carrizo’ citrange seedling rootstocks. Of 150 cryopreserved Citrus accessions representing 32 taxa, 24 taxa had mean regrowth levels that were at least 40?%. The 36 navel orange (Citrus sinensis) accessions had an average regrowth level of 64?%. There was no decrease in viability after 3 years of LN storage for the three accessions that are part of a long-term storage experiment. Histological observations revealed high levels of cell survival after LN exposure and that cellular regrowth occurred between rootstock and shoot tips within 2 days of micrografting. We demonstrate that diverse citrus cultivars can be successfully cryopreserved within gene banks for long-term conservation.     

Apple phloem cells contain some mRNAs transported over long distances

Apple (Malus × domestica Borkh.), like many fruit trees, cannot be propagated clonally from seed and is instead propagated by the grafting onto rootstocks. Rootstocks affect the growth of scions, but it is not known why. The circulation of some mRNAs throughout the phloem has recently been shown. To clarify whether RNAs are transported long distance through the graft union of apple trees, we analyzed cDNAs derived from shoot phloem cells by laser capture microdissection. We detected several mRNAs that have already been reported as phloem-transported RNAs in other plants. One of them, MpSLR/IAA14, was probed to transport a long distance through the graft union in grafted apple plant. These results suggest that a phloem RNA transport system may be involved in the effects of rootstocks on scion growth and cropping.     

Efficient propagation and rooting of three citrus rootstocks using different plant growth regulators

The influence of various basal medium and plant growth regulators on the efficient micropropagation of nodal explants from mature trees of alemow, sour orange, and ??Cleopatra?? mandarin citrus rootstocks was studied. All three citrus rootstock shoot cultures showed a preference for high-salt media, like Murashige and Skoog or Driver and Kuniyuki Walnut medium. Several combinations of N ⁶-benzyladenine (BA) and adenine (AD), kinetin (KIN) or gibberellic acid (GA) were tested to optimize the shoot proliferation phase. BA/GA combinations improved the proliferation of all the rootstocks studied, especially alemow. The addition of BA and AD to the culture medium improved shoot proliferation in sour orange and ??Cleopatra?? mandarin in the same way as BA and GA. The addition of different combinations of BA/KIN did not result in further improvement of any of the studied variables. The transfer of in vitro shoots to rooting media, containing different concentrations of indolebutyric acid (IBA) and indoleacetic acid (IAA), resulted in regeneration of complete plantlets. Alemow and ??Cleopatra?? mandarin shoots rooted well using these plant growth regulators; however, all combinations of IBA and IAA tested resulted in very low rooting percentages in sour orange. To improve rooting in sour orange and ??Cleopatra?? mandarin, different combinations of naphthaleneacetic acid (NAA) and IBA were tested. All NAA/IBA combinations produced higher rooting percentages than did the IBA/IAA combinations, and in sour orange nearly 100 % of explants developed roots. An efficient and simple protocol for the micropropagation of three citrus rootstocks, alemow, ??Cleopatra?? mandarin, and sour orange, by culturing nodes from mature plants, has been established.     

Differences in Strain Virulence of the European Stone Fruit Yellows Phytoplasma and Susceptibility of Stone Fruit Trees on Various Rootstocks to this Pathogen

Twenty strains of the European stone fruit yellows (ESFY) phytoplasma showed great differences in virulence when examined by graft inoculation of trees on peach, peach hybrid GF 677 and P. 'Marianna' GF 8/1 rootstocks. The most virulent strains killed all trees on peach rootstocks whereas the mild strains did not cause mortality but induced only mild foliar symptoms and slightly reduced vigour. Virulence often depended on the pathogen–scion combination and was in several cases most severe when the scion consisted of the original host of the pathogen. To examine resistance in stone fruits, trees on a total of 23 rootstocks were inoculated with the ESFY strains. Trees on the Prunus domestica stocks Ackermann's, Brompton and P 1275 and on Prunus cerasifera stock Myrabi were little affected. Slightly more damage occurred in trees on rootstocks GF 677, GF 8–1, and the P. insititia stocks St Julien A and St Julien GF 655/2. Ishtara, P. cerasifera stock Myrobalan, and peach rootstocks Higama and GF 305 were shown to be moderately susceptible and a high susceptibility was found in trees on peach rootstocks Montclar, peach seedling, Rutgers Red Leaf, and Rubira, on apricot seedlings and St Julien 2. Of flowering cherry trees on various rootstocks, the least susceptible were those on Gisela 3 and F 12/1 whereas Gisela 1, Weihroot 158 and Gisela 5 were more affected. Phytoplasmas were detected by either DAPI (4'-6-diamidino-2-phenylindole) staining or polymerase chain reaction in all rootstocks and scions tested. However, detection frequency and phytoplasma concentrations were usually lower in the more tolerant hosts than in susceptible genotypes.     

Hydraulic conductance and rootstock effects in grafted vines of kiwifruit

Whole-plant hydraulic conductance, shoot growth, and leaf photosynthetic properties were measured on kiwifruit vines with four clonal rootstocks to examine the relationship between plant hydraulic conductance and leaf stomatal conductance (gs) and to test the hypothesis that reduced hydraulic conductance can provide an explanation for reductions in plant vigour caused by rootstocks. The rootstocks were selected from four species of Actinidia and grafted with Actinidia chinensis var. chinensis 'Hort16A' (yellow kiwifruit) as the scion. Total leaf area of the scion on the least vigorous Actinidia rootstock, A. kolomikta, was 25% of the most vigorous, A. hemsleyana. Based on shoot growth and leaf area, the selections of A. kolomikta and A. polygama are low-vigour rootstocks, and A. macrosperma and A. hemsleyana are high-vigour rootstocks for A. chinensis. Whole-plant hydraulic conductance, the ratio of xylem sap flux to xylem water potential, was lower in the low-vigour rootstocks, reflecting their smaller size. However, leaf-area-specific conductance (Kl) and gs were both higher in the low-vigour rootstocks, the opposite of the expected pattern. Differences in Kl were found in the compartment from the roots to the scion stem, with no difference between rootstocks in the conductance of stems or leaves of the scion. There was no evidence that the graft union caused a significant reduction in hydraulic conductance of vines with low-vigour rootstocks. Leaf photosynthetic capacity did not vary between rootstocks, but photosynthesis and carbon isotope discrimination (Delta13C) under ambient conditions were higher in the low-vigour rootstocks because gs was higher. gs and Delta13C were positively correlated with Kl, although the mechanism for this relationship was not based on stomatal regulation of a similar xylem water potential because water potential varied between rootstocks. For Actinidia rootstocks, changes in Kl do not provide a direct explanation for changes in vigour of the scion. However, depending on the rootstock in question, changes in hydraulic conductance, biomass partitioning, and crown structure are involved in the response.     

Somatic hybridization in citrus: An effective tool to facilitate variety improvement

Summary Citrus somatic hybridization and cybridization via protoplast fusion has become an integral part of citrus variety improvement programs worldwide. Citrus somatic hybrid plants have been regenerated from more than 200 parental combinations, and several cybrid combinations have also been produced. Applications of somatic hybridization to citrus scion improvement include the production of quality tetraploid breeding parents that can be used in interploid crosses to generate seedless triploids, and the direct production of triploids by haploid + diploid fusion. Applications of somatic hybridization to citrus rootstock improvement include the production of allotetraploid hybrids that combine complementary diploid rootstocks, and to combine citrus with sexually incompatible or difficult to hybridize genera that possess traits of interest for germplasm expansion. A few somatic hybrid tetraploid breeding parents have flowered, are fertile, and are being used as pollen parents to generate triploids. Several allotetraploid somatic hybrid rootstocks are performing well in commercial field trials, and show great promise for tree size control. Seed trees of most of these somatic hybrid rootstocks are producing adequate nucellar seed for standard propagation. Somatic hybridization is expected to have a positive impact on citrus cultivar improvement efforts.     

Identification and quantitation by GC-MS of zeatin and zeatin riboside in xylem sap from rootstock and scion of grafted apple trees

Zeatin and zeatin riboside were identified by full-scan gas chromatography-mass spectrometry (GC-MS) in xylem sap of clonal apple rootstocks (M.27, M.9 and MM.106). These rootstocks exhibit a wide range of control over tree size when grafted to a common scion. The concentrations of zeatin and zeatin riboside were measured by GC-MS selected ion monitoring (SIM) in shoot xylem sap and root pressure exudate obtained from these rootstocks and from trees of Fiesta scion grafted onto the rootstocks. Zeatin was the predominant cytokinin in xylem sap from the dwarfing rootstocks, M.27 and M.9, while zeatin riboside was the predominant cytokinin in xylem sap from the more invigorating rootstock MM.106. Cytokinin concentrations (ng ml^–1) in root pressure exudate and shoot xylem sap, (i.e. from above the graft union in composite trees), increased with increasing vigour of the rootstock, irrespective of whether the plants were non-grafted rootstocks, or were composite plants of Fiesta scion grafted onto the rootstocks. Cytokinin content (ng shoot^–1) of shoot sap differed with rootstock; the more invigorating (MM.106) had greater amounts of cytokinins than the more dwarfing (M.9 and M.27) rootstocks. These results are discussed in relation to possible influences of roots on the growth of shoots via cytokinin supplies in the xylem sap.     

Cotton shoot plays a major role in mediating senescence induced by potassium deficiency

The objective of this study was to determine the roles of shoot and root in the regulation of premature leaf senescence induced by potassium (K) deficiency in cotton (Gossypium hirsutum L.). Two contrasting cultivars (CCRI41, more sensitive to K deficiency; and SCRC22, a less sensitive cultivar) were selected for self- and reciprocal-grafting, using standard grafting (one scion/one rootstock), Y grafting (two scions/one rootstock) and inverted Y grafting (one scion/two rootstocks) at the seedling stage. Standard grafting was studied in the field in 2007 and 2008. There were no obvious differences in senescence between CCRI41 and SCRC22 scions while supplied with sufficient K. However, SCRC22 scions showed significantly greater K content, SPAD values (chlorophyll content), soluble protein content and net photosynthetic rates than CCRI41 scions while grown in K deficient solution or soil, regardless of rootstock cultivars, grafting types, growth stage and growth conditions. Also, SCRC22 scions had greater yield and less variation in boll weight either between upper- and lower sympodials, or between proximal and distal fruit positions from the main stem in the field under K deficiency, probably owing to reduced leaf senescence. Although the effect of rootstocks on leaf senescence under K deficiency was significant in some cases, the scion cultivars explained the highest percentage of variations within grafting treatments. The shoot-to-root feedback signal(s), rather than high shoot demand for K nutrition, was involved in the shoot regulation of premature senescence in cotton plants, achieved possibly by altering root K uptake.