The Effect of Chilling and Moisture Status on the Germination, Desiccation Tolerance and Longevity ofAesculus hippocastanumL. Seed

Effects of 2 °C chilling on the threshold moisture contentsand water potentials for various physiological processes wereestimated forAesculus hippocastanumL. seed. Seed harvested atthe time of maximum seed fall exhibited a dual response to drying:partial drying from near 50% to 32–40% moisture contentprogressively increased germination percentage (at 16 °C)up to various peak values; further desiccation was detrimental,confirming that the seeds are ‘recalcitrant’. Themoisture content for optimum germination was increased by atleast 10% as the chilling period was raised from 0 to 9 weeks.A negative linear relationship was found between log₁₀mean timeto germinate and probit final germination, regardless of pre-treatment,indicating that partial desiccation and chilling are interchangeablein promoting germination of hydrated seed. For nearly fullyhydrated seeds, increasing the chilling period from 6 to 26weeks increased the viability-loss onset point for desiccationinjury from near 40% to about 48% moisture content without alteringthe drying rates of seed tissues. Extending moist chilling invarious seed lots from 0 to 26 weeks decreased subsequent longevityat 16 °C. For 26-week-chilled seeds longevity (the periodto lose one probit of germination) differed above and belowa threshold moisture content of 48%. It remained constant inthe moisture-content range 48–38%, but increased progressivelyas moisture content was raised above 48%. This threshold moisturecontent coincided with the value above which chilled seed pre-germinatedin storage. The results indicate that post-harvest desiccationand chilling alter the water relations of various physiologicalprocesses and a schematic summary is presented which relatesthe results to an axis water sorption isotherm.Copyright 1998Annals of Botany Company Aesculus hippocastanumL., horse chestnut, chilling, moisture content, water potential, desiccation tolerance, longevity, recalcitrant seed, embryo axis, maturation, germination.     

Survival and Vigour of Lettuce (Lactuca sativa L.) and Sunflower (Helianthus annuus L.) Seeds Stored at Low and Very-low Moisture Contents

Seeds of lettuce (Lactuca sativa L.) and sunflower (Helianthusannuus L.) were stored hermetically at 35 °C with 11 differentmoisture contents between 1·3 and 6·9%, and between1·3 and 7·1% of fresh mass, respectively. Germinationand vigour (mean germination time, root length, seedling dryweight) were determined after storage for 0, 8, or 16 weeks(sunflower) or 0, 8, 16, or 48 weeks (lettuce) in these environmentsfollowed by various humidification treatments (to avoid imbibitioninjury). The range of seed storage moisture contents over whichdeterioration was minimized depended upon the criterion of deteriorationused, and varied somewhat between species. Comparison of theseranges for seeds stored for the longest durations showed thatfor some criteria seed performance was poorer (P < 0·05)at both the lowest and highest moisture contents investigatedthan at certain of the intermediate storage moisture contents(e.g, most rapid germination occurred in sunflower followingstorage at 2·2-4·7% moisture content), whereasfor other criteria all the drier storage moisture contents weresuperior to the more moist (e,g. greatest seedling growth occurredin sunflower following storage at 1·3-5·1% moisturecontent). But none of these results suggested that lettuce andsunflower seeds stored hermetically at 2·5-3·0%or 2·2-2·5% moisture content, respectively, wereless vigorous than at any other moisture content tested. Inboth species, these storage moisture contents are in equilibriumwith about 8-10% relative humidity (r.h.) at 20 °C, whichis similar to and indeed marginally less than the 10-13% r.h.recommended following earlier studies on the longevity of seedsin hermetic storage at much warmer temperatures. Thus, theseresults show no evidence that the optimum seed moisture contentfor storage increases with decrease in temperature, at leastover the range 35-65 °C, as has been suggested elsewhere.We conclude that the international recommendation for the long-termseed storage for genetic conservation at 5 ± 1% moisturecontent should not be revised upwardly, and that in situationswhere refrigeration cannot be provided storage at even lowermoisture contents is worthy of further investigation for thoseseeds in which desiccation at 20 °C to equilibrium at 10%r.h. results in moisture contents well below 5%.Copyright 1995,1999 Academic Press Helianthus annuus L., sunflower, Lactuca sativa L., lettuce, desiccation, seed storage, seed vigour     

The Effect of Desiccation on the Longevity of Seeds of Araucaria hunsteinii and A. cunninghamii

Seeds of Araucaria hunsteinii K. Schum. dried quicker at 29°Cthan at 19°C and quicker with the seed-coat removed thanwhen intact; seeds enclosed in polyethylene bags increased inmoisture content. At 15°C, seeds in a flow of air driedquicker than seeds in a box with silica gel, which in turn driedquicker than seeds in a box with no desiccant. No loss of germinationability occurred on drying fresh seed from 53 to about 32 percent moisture content (fresh weight basis); during further desiccationthe percentage germination was related to percentage moisturecontent in the form of a sigmoid curve, culminating in a completefailure to germinate at approximately 14 per cent moisture content.A consistent relationship was observed for all treatments andthe mean critical moisture content for seed death (failure togerminate) was near 23 per cent. Excised embryos grew on 1 percent agar but died if previously subjected to 14 h of desiccationat 15°C. In contrast, no relationship was found between germination andmoisture content of A. cunninghamii D. Don on desiccation from21 to 7 per cent moisture content. Possible causes for the observeddifference in response to desiccation are discussed and methodsfor seed storage are considered. Araucaria hunsteinii, Klinkii pine, Araucaria cunninghamii, Hoop pine, desiccation, seed longevity, storage of seeds     

Desiccation Tolerance and Potential Longevity of Developing Seeds of Rice (Oryza sativa L.)

The longevity and desiccation tolerance of samples of seedsof a japonica rice (Oryza sativa L.) harvested serially duringdevelopment from plants grown in two temperature regimes, viz28/20 °C and 32/24 °C (12/12 h) were determined. Massmaturity (defined as the end of the seed-filling phase) occurred19·7 and 18·3 d after 50% anthesis, respectively.Longevity (determined at 40 °C with 15% moisture contentand quantified by the value of the constant K_i of the seed viabilityequation) improved during seed development and maturation until17 and 14 d after mass maturity in the cooler and warmer regimes,respectively, but declined thereafter. Changes in K_i with timewere similar in the two environments until mass maturity, butthe increase in K_i values after mass maturity was much greaterin the cooler regime. Tolerance of desiccation to low (4%) moisturecontents improved until 22 and 14 d after mass maturity in thecooler and warmer regimes, respectively, when maturation dryinghad reduced seed moisture contents naturally to 24 and 32% moisturecontent, respectively. Further delays to seed harvest reduceddesiccation tolerance, particularly in the warmer environment.Comparison among 15 samples of seeds harvested at differenttimes in the two environments showed a strong correlation (r= 0·947, P < 0·01) between longevity (K_i) anddesiccation tolerance (to 4% moisture content). Hence, it issuggested that the regulation of desiccation tolerance to lowmoisture contents and potential air-dry longevity during seeddevelopment and maturation determined here may have a commoncause.Copyright 1994, 1999 Academic Press Oryza sativa L., rice, desiccation tolerance, genebanks, seed development, seed longevity, temperature     

Theoretical Basis of Protocols for Seed Storage III. Optimum Moisture Contents for Pea Seeds Stored at Different Temperatures

In previous work, we demonstrated that there was an optimummoisture level for seed storage at a given temperature (Vertucciand Roos, 1990), and suggested, using thermodynamic considerations,that the optimum moisture content increased as the storage temperaturedecreased (Vertucci and Roos, 1993b). In this paper, we presentdata from a two year study of aging rates in pea (Pisum sativum)seeds supporting the hypothesis that the optimum moisture contentfor storage varies with temperature. Seed viability and vigourwere monitored during storage under dark or lighted conditionsat relative humidities between 1 and 90%, and temperatures between-5 and 65°C. The optimum moisture content varied from 0·015g H₂O g^-1 d.wt at 65°C to 0·101 g H₂O g^-1 d.wt at15°C under dark conditions and from 0·057 at 35°Cto 0·092 g H₂O g^-1 d.wt at -5°C under lighted conditions.Our results suggest that optimum moisture contents cannot beconsidered independently of temperature. This conclusion hasimportant implications for 'ultra-dry' and cryopreservationtechnologies.Copyright 1994, 1999 Academic Press Seed storage, seed aging, seed longevity, water content, temperature, glass, desiccation damage, ultradry, Pisum sativum L., pea, cryopreservation     

Responses to Drying of Recalcitrant Seeds of Quercus nigra L.

It has been suggested that rate of desiccation can influencethe expression of recalcitrant behaviour in seeds, thus complicatingthe task of determining which seeds are truly recalcitrant.The objective of this study was to see if variable rates ofdesiccation influenced such behaviour inQuercus nigra L., atree seed known to be recalcitrant. Acorn moisture content, leachate conductivity, and germinationwere determined at various times during desiccation at threerates at 27 and 40°C. Moisture contents and germinationdecreased as the severity of desiccation increased. Leachateconductivity increased slightly but was not a sensitive indicatorof loss of viability. The critical (lethal) moisture contentfor these acorns was 10–15%, although rehydration within48 h of reaching this level prevented death in about 25% ofthe acorns. At 27°C any desiccation treatment that producedlosses of 30–50mg of moisture per g of acorn dry weightper day should be suitable as a test for recalcitrance in thegenus. Apparent physiological or fungal damage at 40°C rulesout the higher temperature for such a test. Quercus nigra L.; desiccation rate; temperature; recalcitrant; leachate conductivity; germination; viability     

Water Relations of Seed Development and Germination in Muskmelon (Cucumis melo L.): VII. INFLUENCE OF AFTER-RIPENING AND AGEING ON GERMINATION RESPONSES TO TEMPERATURE AND WATER POTENTIAL

The effects of storage conditions on the germination of developingmuskmelon (Cucumis melo L.) seeds were tested to determine whetherafter-ripening is required to obtain maximum seed vigour. Seedswere harvested at 5 d intervals from 35 (immature) to 60 (fullymature) days after anthesis (DAA), washed, dried, and storedat water contents of 3·3 to 19% (dry weight basis) at6, 20, or 30°C for up to one year. Germination was testedin water and in polyethylene glycol 8000 solutions ( –0·2to –1·2 MPa osmotic potential) at 15, 20, 25 or30°C. Germination percentages and rates (inverse of meantimes to radicle emergence) were compared to those of newlyharvested, washed and dried seeds. For 40 and 60 DAA seeds,one year of storage at 20°C and water contents <6·5%significantly increased germination percentages and rates at20°C, but had little effect on germination at 25 and 30°C.Storage reduced the estimated base temperature (T_b) and meanbase water potential (_b) for germination of both 40 and 60 DAAseeds by approximately 5°C and 0·3 MPa, respectively.Immature 35 DAA seeds showed the greatest benefit from storageat 3 to 5% water content and 30°C, as germination percentagesand rates increased at all water potentials (). Storage underthese same conditions had little effect on the germination ofmature seeds in water, but increased germination percentagesand rates at reduced 's. Accelerated ageing for one month at30°C and water contents from 15 to 19° increased germinationrates and percentages of mature seeds at reduced 's, but longerdurations resulted in sharp declines in both parameters. Immatureseeds lost viability within one month under accelerated ageingconditions. An after-ripening period is required at all stagesof muskmelon seed development to expand the temperature andwater potential ranges allowing germination and to achieve maximumgerminability and vigour. Post-harvest dormancy is deepest atthe point of maximum seed dry weight accumulation and declinesthereafter, both in situ within the ripening fruit and duringdry storage. Key words: Muskmelon, Cucumis melo L., seed, development, dormancy, germination, vigour, after-ripening     

An Intermediate Category of Seed Storage Behaviour?: I. COFFEE

Seeds of four cultivars of arabica coffee (Coffea arabica L.)were tested for germination following hermetic storage for upto 12 months at several different combinations of temperaturesbetween –20 °C and 15 °C and moisture contentsbetween 5% and 10% (wet basis). Most of the seeds from one cultivarwithstood desiccation to between 5% and 6% moisture content,a seed water potential of approximately –250 MPa, butthose of the remaining three cultivars were much more sensitiveto desiccation damage. Moreover, in all four cultivars, seedlongevity at cool and sub-zero temperatures, and at low moisturecontents did not conform with orthodox seed storage behaviour:viability was lost more rapidly under these conditions thanat either warmer temperatures or higher moisture contents. Theresults confirm that coffee seeds fail to satisfy the definitionsof either typical orthodox or recalcitrant seed storage behaviour.These results, therefore, point to the possibility of a thirdcategory of storage behaviour intermediate between those oforthodox and recalcitrant seeds. One of the main features ofthis category is that dry seeds are injured by low temperatures. Key words: coffee, Coffea arabica L., seed storage, seed longevity, desiccation, temperature     

Storage Behaviour of Salix alba and Salix matsudana Seeds

Effects of dehydration, storage temperature and humidificationon germination of Salix alba andS. matsudana seeds were studied.Newly released seeds showed 100% germination before and afterdehydration to 11–12% moisture content. Germination ofthe high vigour lot (100% initial normal germination) was notaffected by dehydration to 6.7% moisture content but germinationdecreased with further dehydration to 4.3%. The lower vigourlot (75% initial normal germination) was more susceptible todehydration and germination decreased following dehydrationto 6.7% moisture content. Dry seeds of both species survivedimmersion in liquid nitrogen without loss of viability. Thegermination of seeds stored with 9% moisture content decreasedto 35–40% in 5 months at -20°C or in 2 months at 5°C.However, at 25°C seeds entirely lost viability within 2weeks. Seeds showed improved performance when stored at -70°C> - 20°C > 5°C > 25°C and tolerated dehydrationto a moisture content in equilibrium with 15% relative humidity.Results suggest that they are orthodox in storage behaviouralthough they are short-lived. Humidification treatment of lowvigour seed lots resulted in a remarkable increase in germinationpercentage. Copyright 2000 Annals of Botany Company Salix alba, Salix matsudana, willow, seed storage behaviour, dehydration, humidification, cryopreservation     

An Intermediate Category of Seed Storage Behaviour?II. EFFECTS OF PROVENANCE, IMMATURITY, AND IMBIBITION ON DESICCATION-TOLERANCE IN COFFEE

Seeds of four cultivars of arabica coffee (Coffea arabica L.)received from three continents survived desiccation to between7-2% and 11-3% moisture content (wet basis), i.e. to seed waterpotentials of –90 MPa to –150 MPa, but further desiccationreduced germination (criterion, normal seedling development)in all seed lots. Only a few individuals from four of the lotsgerminated after being dried to 4–5% moisture content.Differences in desiccation sensitivity were apparent among lotswithin each cultivar. Desiccation sensitivity in these lotswas similar to that observed in seeds of orthodox species whichhave begun to germinate. Seeds extracted from fruits of intermediatematurity (yellow) were able to tolerate greater desiccationthan those from either ripe (red) or immature (green) fruits.Imbibed storage increased desiccation sensitivity. The resultsare compatible with the view that arabica coffee seeds are unableto tolerate extreme desiccation because germination has beeninitiated before harvest.     

Biochemical Characteristics Associated with the Development of the Desiccation-sensitive Seeds of Machilus thunbergii Sieb. & Zucc.

Biochemical properties, i.e. endogenous abscisic acid, proline,sugars, respiration, adenosine phosphates and adenylate energycharge, and growth and moisture content were measured duringthe development of seeds of Machilus thunbergii. As dry matteraccumulated in the embryo during development, moisture content,ABA, proline, respiration and sugars all declined. At maturity,the dry mass of the seeds failed to attain a plateau beforethe period of natural seed shedding; the axis and cotyledonsreached moisture contents of 58 and 45%, respectively. Dryingof immature seeds at 73% relative humidity and 25 °C for30 d resulted in a complete loss of viability at all developmentalstages tested with the exception of mature seeds that were ableto tolerate a 5% decrease in moisture content before germinationdeclined. ABA was detected in all embryos tested, with a maximum value16.·16 µg g^-1 d. wt about midway through development.Although the presence of ABA induced no tolerance to desiccationof mature seeds, it did coincide with decreased content of waterin the developing seeds and decreased respiration. Desiccationdamage of M. thunbergii seeds occurred when moisture contentwas still high (45%) and this damage was not related to theabsence of oligosaccharides in the mature seeds. We concludethat developing embryos and mature seeds of M. thunbergii haveproperties common to many recalcitrant seeds, with seeds beingsensitive to desiccation at all stages, having a prominent ABApeak, little proline, lacking oligosaccharides, and specifically,little dormancy and a moderate rate of respiration of matureseeds (0·9 µmol O₂ min^-1 g^-1 f. wt). Adenosinetriphosphate content and energy charge decreased from stagefour to stage eight of seed development, then increased againto 103 nmol g^-1 d. wt and 0·73, respectively, in matureseeds. The moderate energy charge observed in mature seeds indicatesthat continuous metabolism is also a characteristic of recalcitrantseeds.Copyright 1995, 1999 Academic Press Machilus thunbergii, seed development, recalcitrant seed, abscisic acid, energy charge     

Polypeptide markers for low temperature stress during seed germination in sunflower

Sunflower seeds behaved as chilling and freezing sensitive and also exhibited acclimation under low seed moisture content (< 1 %). At high seed moisture content (approx. 22 %) they tolerated chilling stress but failed to acclimate under freezing temperatures. Pre-imbibitional chilling (5 °C) or freezing (−5 or −10 °C) stress significantly enhanced total soluble protein (TSP) content. Chilling treatment after imbibition (in contrast to pre-imbibition) enhanced germination and this was accompanied by increase in 30, 24 and 21.9 kDa TSPs content (3 d after germination). Freezing at −5 and −10 °C suppressed seed germination and increased content of 78 and 56.2 kDa wall bound proteins. Chilling acclimation decreased 35.4, 33.9, 29.5, 23.4 and 21.4 kDa TSPs.     

Effects of Desiccation and Cryopreservation on the In Vitro Viability of Embryos of the Recalcitrant Seed Species Araucaria hunsteinii K. Schum

Embryos excised from fresh seed had a moisture content of about37% (fr. wt.), 7% above that of the whole seed: mainly as aresult of the dryness of the seed coat. When cultured for 14d at 26°C embryo growth ranged from unorganized to fullyorganized. Embryos which had been directly surface-sterilizedexhibited lower fully organized growth than aseptically excisedembryos. During desiccation of the whole seed at 15°C and 15% r.h.moisture loss from the embryo was slow until the embryo reacheda mean critical moisture content for fully organized growthin vitro of about 30%. After this point the rate of moistureloss increased, quickly diminishing the moisture content differentialbetween the embryo and the whole seed. No such shoulder in theembryo desiccation curve was observed when using a low viability(7%) seed batch. When dried below 30% moisture content, suchaseptically excised embryos increasingly exhibited unorganizedgrowth in vitro, with only root meristem survival (46%) at 13%moisture content. In contrast, a much higher level of root meristem survival (84%of control) was observed when aseptically excised embryos wererapidly desiccated to 13% moisture content, using a flow ofsterile air. However, the benefits of rapid drying were lostif the embryos were directly surface-sterilized prior to desiccation.Furthermore, 80% of aseptically excised embryos which survivedrapid desiccation to 20% moisture content exhibited root meristemsurvival following subsequent cryopreservation. These findingshave implications for the in vitro conservation of recalcitrantseed tissue. Key words: Araucaria hunsteinii K. Schum., recalcitrant seed embryo, desiccation, cryopreservation     

The Survival of Germinating Orthodox Seeds after Desiccation and Hermetic Storage

Seeds of barley (Hordeum vulgare L.) and mung bean (Vigna radiata(L.) Wilczek), with orthodox seed storage behaviour, were imbibedfor between 8 h and 96 h at 15 °C and 25 °C, respectively,while barley seeds were also maintained in moist aerated storageat 15 °C for 14 d. These seeds and seedlings, together withcontrols, were then dried to various moisture contents between3% and 16% (wet basis) and hermetically stored for six monthsat —20°C, 0°C or 15°C. In both species, neitherdesiccation nor subsequent hermetic storage of the control lotsresulted in loss in viability. The results for barley seedsimbibed for 24 h were similar to the control, but desiccationsensitivity increased progressively with duration of imbibitionbeyond 24 h in barley or 8 h in mung bean; these treatmentsalso reduced the longevity of the surviving seeds in air-drystorage. Loss in viability in barley imbibed for 48 h was mostrapid at the two extreme seed storage moisture contents of 3·6%and 14·3%, and in both these cases was more rapid at15 °C than at cooler temperatures. Similarly, for mung beanimbibed for 8 h, loss in viability was most rapid at the lowest(4·3%) moisture content, but in this case it was morerapid at –20 °C than at warmer temperatures. Thus,these results for the storage of previously imbibed orthodoxseeds conform with the main features of intermediate seed storagebehaviour Key words: Barley, Hordeum vulgare L., mung bean, Vigna radiata (L.) Wilczek, desiccation sensitivity, seed longevity, seed storage behaviour     

Water Relations of Seed Development and Germination in Muskmelon (Cucumis melo L.): II. DEVELOPMENT OF GERMINABILITY, VIGOUR, AND DESICCATION TOLERANCE

The germinability, vigour, and desiccation tolerance of muskmelon(Cucumis melo L. cv. Top Mark) seeds was studied in relationto changes in seed water content during development within thefleshy fruit. Seed water content (fresh weight basis) declinedfrom 91% to 42% between 10 d and 35 d after anthesis (DAA) (whenmaximum dry weight was attained), then declined more slowlyto a minimum of 35% at 50 DAA before increasing again to 43%at 65 DAA. Fresh intact seeds were first germinable at 25 to30 DAA and attained maximum germination percentages at 45 DAA.Between 15 and 35 DAA, cotyledons, hypocotyls, radicles andepicotyls of isolated embryos (testa and perisperm enveloperemoved) sequentially developed the ability to grow when incubatedon water. Dehydration to water contents less that those attainedwithin the fleshy fruit is not a requirement for developmentof germination capacity of muskmelon seeds. Seeds became tolerantof rapid desiccation after 25 DAA, and drying of immature seeds(25 to 40 DAA) increased their germination percentages uponsubsequent imbibition. Washing, drying, or washing followedby drying increased seedling vigour (root length) as comparedto fresh seeds, which had very poor vigour. Water absorptionisotherms were constructed to test whether changes in water-bindingcomponents were correlated with the development of desiccationtolerance. Isotherms for seeds older than 25 DAA fit well tothe D'Arcy/Watt model, which postulates the existence of high-affinity,low-affinity and multi-molecular water-binding sites. Desiccation-intolerantseeds younger than 25 DAA lacked the component of the absorptionisotherm characteristic of the high-affinity water-binding siteswhich have been hypothesized to confer desiccation tolerance.However, we were unable to determine whether the absence ofhigh-affinity binding characteristics was specifically relatedto desiccation intolerance or was artifactual due to the lossof volatiles when immature seed samples were dried at high temperatures. Key words: Muskmelon, embryo, germination, development, vigour, desiccation     

Effects of Moisture Content on Germination of Seeds of Hancornia speciosa Gom. (Apocynaceae)

Seeds of Hancornia speciosa germinated best at a temperatureof 20–30 °C. The viability of the seeds during storagewas short and the best storage conditions for viability entailedkeeping the seeds in polyethylene bags. Seed viability was maintainedonly when the seeds were stored at a moisture content above30%; storage conditions which allowed dehydration resulted ina rapid loss of viability (the seeds showed recalcitrant behaviour). Low temperature during storage did not improve longevity. Arelationship between germination and moisture content was established,but when the moisture content fell below 25% there was a drasticreduction of germination. After 9 weeks of storage, even athigh moisture content, seeds lost viability. Loss of seed viability during seed dehydration was associatedwith increased leakage of electrolytes and organic solutes,and reduced tetrazolium staining during subsequent imbibition. Hancornia speciosa, germination, recalcitrant seeds, storage, moisture     

The Effect of Priming Treatments on the Viability and Accumulation of Chromosomal Damage in Aged Pea Seeds

A range of post-storage priming treatments were evaluated todevelop a protocol for priming pea seeds. Post-storage primingtreatments at 16 °C with PEG-8000 (-0·5, -1·0and -1·2 MPa), ABA (10^-1 M) and distilled water for 3,5 and 7 d ameliorated some of the damage which resulted fromageing. Most of the benefits occurred during the first 3 d withPEG or ABA and during the first 5 d distilled water. Primingtreatments increased the final germination and decreased themean germination time (MGT) and the frequency of chromosomalaberrations, possibly due to the repair of some age-induceddamage. The results of the priming experiment suggest that thecritical moisture content that facilitates repair of chromosomaldamage in pea seeds is likely to be between 32 and 46%. ABAhas been identified as a possible chemical which arrests germinationand facilitates repair of age-induced genetic damage.Copyright1995, 1999 Academic Press Pisum sativum, Pea, PEG, Polyethylene glycol, ABA, Abscisic acid, MGT, Mean germination time, seed priming, chromosome repair     

茸毛赤瓟种子不同发育时期脱水耐性和发芽力的初步研究

茸毛赤瓟种子自花后30 d发育至55 d,发芽率、发芽指数和活力指数由0升至最大;含水量逐渐下降,但下降速率不等,发育后期存在显著的成熟脱水期。花后45 d果实干重接近最大,种子干重在45 d达到最大,种子和果实的发育基本同步。自然风干1d后,花后40~50 d的种子含水量下降2%~4%。花后40 d的种子发芽力显著提高,花后45~50 d的种子无明显变化,继续干燥,发芽率、发芽指数和活力指数均有不同程度的降低,而花后50 d的种子直到含水量低至4%后才明显下降;花后35 d和55 d的种子经过不同天数干燥后,发芽力均下降。不同发育时期茸毛赤瓟种子耐脱水力有差别,由强至弱依次为花后50、45、55、40、35 d。用半致死含水量可准确地反映不同发育时期茸毛赤瓟种子的脱水敏感性的强弱。     

Seed development and maturation in Phaseolus vulgaris I. Ability to germinate and to tolerate desiccation

The onset and development of both the ability to germinate andto tolerate rapid enforced desiccation were investigated duringthe development and maturation of seeds of bean (Phaseolus vulgahsL.) at different temperatures and also after different slow-dryingtreatments. The onset of germinability occurred when seeds wereless than half-filled in the absence of both a post-ovule abscissionprogramme and water loss from the seeds. Maximum ability togerminate normally and maximum tolerance to rapid enforced desiccationto 14–16% moisture content did not occur until 2–23d and 6–23 d after mass maturity (end of the seed-fillingperiod), respectively. The slow-drying of immature seeds for7 d ex planta before rapid enforced desiccation increased theability to germinate and stimulated the onset of desicationtolerance. Holding seeds moist for 7 d (during which time moisturecontent declined by <5%) had similar effects, but seed germinationafter rapid enforced desiccation was consistently greater inseeds first dried slowly than held moist. Comparisons betweenseeds less than half-filled dried slowly ex planta and fullseeds undergoing maturation drying in planta showed that a similar(slow) rate of water loss over a 7 d period had a similar effecton the subsequent ability of seeds to tolerate rapid enforceddesiccation. Thus, neither a post-ovule abscission programmenor loss of water were required for the onset of the abilityto germinate in developing bean seeds, but both were requiredfor the development of the ability to germinate and resistanceto solute leakage, when rehydrated, after rapid enforced desiccation. Key words: Bean, Phaseolus vulgaris L., seed germination, seed development, desiccation tolerance     

Desiccation Intolerance in Seeds of Zizania palustris is Not Related to Developmental Age or the Duration of Post-harvest Storage

Freshly harvested seeds of Zizania palustris L. representingfour distinct stages of development were intolerant of desiccation.Rapid drying did not improve survival. The relationship betweenprobit viability and embryo moisture content for freshly harvestedmature seeds was identical to that described in an earlier publicationfor seeds previously stored fully imbibed at low temperaturesto remove dormancy. A small reduction in embryo moisture contentduring the first 3 d of drying at 15% r.h. and 15°C ledto a highly sigificant (P < 0.01) increase in the proportionof fresh seeds capable of germination in response to a rangeof dormancy breaking factors including giberellins. Resultsare discussed in relation to previous work on recalcitrant seedsand to the widely reported developmental changes in orthodoxseeds which are triggered by desiccation. Zizania palustris, wild rice, seeds, drying, desiccation intolerance, development