Chin J Plant Ecol ›› 2018, Vol. 42 ›› Issue (9): 963-970.DOI: 10.17521/cjpe.2018.0085
Special Issue: 植物功能性状
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Received:
2018-02-26
Revised:
2018-05-29
Online:
2018-09-20
Published:
2018-09-26
Contact:
Da-Shuan TIAN
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TIAN Da-Shuan. Effects of the supply levels and ratios of nitrogen and phosphorus on seed traits of Chenopodium glaucum[J]. Chin J Plant Ecol, 2018, 42(9): 963-970.
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N:P | 氮/磷供应量 N/P supply amount (mg·pot-1) | ||
---|---|---|---|
低量 Low | 中量 Middle | 高量 High | |
5 | 8.80/1.76 | 26.55/5.28 | 79.15/15.83 |
15 | 15.15/1.01 | 45.75/3.05 | 137.11/9.14 |
45 | 26.55/0.59 | 79.15/1.76 | 237.62/5.28 |
Table 1 Levels and ratios of nitrogen and phosphorus supply in each treatment
N:P | 氮/磷供应量 N/P supply amount (mg·pot-1) | ||
---|---|---|---|
低量 Low | 中量 Middle | 高量 High | |
5 | 8.80/1.76 | 26.55/5.28 | 79.15/15.83 |
15 | 15.15/1.01 | 45.75/3.05 | 137.11/9.14 |
45 | 26.55/0.59 | 79.15/1.76 | 237.62/5.28 |
种子性状 Seed trait | 氮磷供应水平 N and P supply level | 氮磷供应比例 N:P supply ratio | 交互作用 Their interaction |
---|---|---|---|
自由度 d.f. | 2 | 2 | 4 |
种子大小 Seed size | 0.74%ns | 4.41%* | 5.38%ns |
氮浓度 N concentration | 23.58%*** | 2.90%ns | 13.77%** |
磷浓度 P concentration | 23.21%*** | 7.07%** | 17.45%*** |
萌发率 Germination rate | 15.13%*** | 5.86%** | 2.79%ns |
萌发速度 Germination speed | 0.20%ns | 2.00%ns | 4.07%ns |
Table 2 Effects of nitrogen (N) and phosphorus (P) supply levels, ratios and their interactions on the size, N concentrations, P concentrations, germination rates and germination speed of seeds
种子性状 Seed trait | 氮磷供应水平 N and P supply level | 氮磷供应比例 N:P supply ratio | 交互作用 Their interaction |
---|---|---|---|
自由度 d.f. | 2 | 2 | 4 |
种子大小 Seed size | 0.74%ns | 4.41%* | 5.38%ns |
氮浓度 N concentration | 23.58%*** | 2.90%ns | 13.77%** |
磷浓度 P concentration | 23.21%*** | 7.07%** | 17.45%*** |
萌发率 Germination rate | 15.13%*** | 5.86%** | 2.79%ns |
萌发速度 Germination speed | 0.20%ns | 2.00%ns | 4.07%ns |
Fig. 1 Effects of N and P supply levels or ratios on seed size of Chenopodium glaucum (mean ± SE, n = 20). * represents a significant impact of N:P at the same nutrient supply level.
Fig. 2 Effects of nitrogen (N) and phosphorus (P) supply levels or ratios on seed N and P contents of Chenopodium glaucum (mean ± SE, n = 20). * represents a significant effect of N:P at the same nutrient supply level. Different letters indicate a significant effect of nutrient supply level at the same N:P.
Fig. 3 Effects of nitrogen (N) and phosphorus (P) supply levels or ratios on seed germination rate and speed of Chenopodium glaucum (mean ± SE, n = 20). * indicates a significant effect of N:P at the same nutrient supply level. Different letters indicate a significant effect of nutrient supply level at the same N:P.
[1] |
Aarssen LW, Burton SM ( 1990). Maternal effects at 4 levels in Senecio vulgaris(Asteraceae) grown on a soil nutrient gradient. American Journal of Botany, 77, 1231-1240.
DOI URL |
[2] |
Bai Y, Wu J, Clark CM, Naeem S, Pan Q, Huang J, Zhang L, Han X ( 2010). Tradeoffs and thresholds in the effects of nitrogen addition on biodiversity and ecosystem functioning: Evidence from inner Mongolia Grasslands. Global Change Biology, 16, 358-372.
DOI URL |
[3] |
Balestri E, Gobert S, Lepoint G, Lardicci C ( 2009). Seed nutrient content and nutritional status of Posidonia oceanica seedlings in the northwestern Mediterranean Sea. Marine Ecology Progress Series, 388, 99-109.
DOI URL |
[4] |
Bobbink R, Hicks K, Galloway J, Spranger T, Alkemade R, Ashmore M, Bustamante M, Cinderby S, Davidson E, Dentener F, Emmett B ( 2010). Global assessment of nitrogen deposition effects on terrestrial plant diversity: A synthesis. Ecological Applications, 20, 30-59.
DOI URL |
[5] |
Breen AN, Richards JH ( 2008). Irrigation and fertilization effects on seed number, size, germination and seedling growth: Implications for desert shrub establishment. Oecologia, 157, 13-19.
DOI URL |
[6] |
Cornwell WK, Cornelissen JHC, Amatangelo K, Dorrepaal E, Eviner VT, Godoy O, Hobbie SE, Hoorens B, Kurokawa H, Pérez-Harguindeguy N, Quested HM ( 2008). Plant species traits are the predominant control on litter decomposition rates within biomes worldwide. Ecology Letters, 11, 1065-1071.
DOI URL PMID |
[7] | Defalco LA, Bryla DR, Smith-Longozo V, Nowak RS ( 2003). Are Mojave Desert annual species equal? Resource acquisition and allocation for the invasive grass Bromus madritensis subsp rubens (Poaceae) and two native species. American Journal of Botany, 90, 1045-1053. |
[8] |
Fortunel C, Violle C, Roumet C, Buatois B, Navas ML, Garnier E ( 2009). Allocation strategies and seed traits are hardly affected by nitrogen supply in 18 species differing in successional status. Perspectives in Plant Ecology Evolution and Systematics, 11, 267-283.
DOI URL |
[9] |
Fujita Y, de Ruiter PC, Wassen MJ, Heil GW ( 2010). Time-dependent, species-specific effects of N:P stoichiometry on grassland plant growth. Plant and Soil, 334, 99-112.
DOI URL |
[10] | Galloway LF ( 2001). Parental environmental effects on life history in the herbaceous plant Campanula americana. Ecology, 82, 2781-2789. |
[11] |
Grant CA, Flaten DN, Tomasiewicz DJ, Sheppard SC ( 2001). The importance of early season phosphorus nutrition. Canadian Journal of Plant Science, 81, 211-224.
DOI URL |
[12] |
Groom PK, Lamont BB ( 2010). Phosphorus accumulation in Proteaceae seeds: A synthesis. Plant and Soil, 334, 61-72.
DOI URL |
[13] |
Gusewell S ( 2004). N:P ratios in terrestrial plants: Variation and functional significance. New Phytologist, 164, 243-266.
DOI URL |
[14] |
Gusewell S ( 2005a ). High nitrogen: phosphorus ratios reduce nutrient retention and second-year growth of wetland sedges. New Phytologist, 166, 537-550.
DOI URL |
[15] |
Gusewell S ( 2005b ). Responses of wetland graminoids to the relative supply of nitrogen and phosphorus. Plant Ecology, 176, 35-55.
DOI URL |
[16] |
Gusewell S, Bollens U ( 2003). Composition of plant species mixtures grown at various N:P ratios and levels of nutrient supply. Basic and Applied Ecology, 4, 453-466.
DOI URL |
[17] |
Hejcman M, Kristalova V, Cervena K, Hrdlickova J, Pavlu V ( 2012). Effect of nitrogen, phosphorus and potassium availability on mother plant size, seed production and germination ability of Rumex crispus. Weed Research, 52, 260-268.
DOI URL |
[18] |
Horak MJ, Wax LM ( 1991). Germination and seedling development of bigroot morningglory ( Ipomoea pandurata). Weed Science, 39, 390-396.
DOI URL |
[19] |
Howard TG, Goldberg DE ( 2001). Competitive response hierarchies for germination, growth, and survival and their influence on abundance. Ecology, 82, 979-990.
DOI URL |
[20] |
Hrdlickova J, Hejcman M, Kristalova V, Pavlu V ( 2011). Production, size, and germination of broad-leaved dock seeds collected from mother plants grown under different nitrogen, phosphorus, and potassium supplies. Weed Biology and Management, 11, 190-201.
DOI URL |
[21] | Hu XY, Sun ZG, Zhang DY, Sun WG, Zhu H, Ren P ( 2017). Germination and seedling growth of different N-substrate seeds of Suaeda salsa subjected to salinity stress and nitrogen loading in the newly created marshes of the Yellow River estuary, China. Acta Ecologica Sinica, 37, 8499-8510. |
[ 胡星云, 孙志高, 张党玉, 孙文广, 祝贺, 任鹏 ( 2017). 黄河口不同氮基质碱蓬种子萌发及幼苗生长对盐分及氮输入的响应. 生态学报, 37, 8499-8510.] | |
[22] |
Lavorel S, Garnier E ( 2002). Predicting changes in community composition and ecosystem functioning from plant traits: Revisiting the Holy Grail. Functional Ecology, 16, 545-556.
DOI URL |
[23] |
Leishman MR ( 2001). Does the seed size/number trade-off model determine plant community structure? An assessment of the model mechanisms and their generality. Oikos, 93, 294-302.
DOI URL |
[24] |
Li Y, Hou L, Song B, Yang L, Li L ( 2017). Effects of increased nitrogen and phosphorus deposition on offspring performance of two dominant species in a temperate steppe ecosystem. Scientific Reports, 7, 40951. DOI: 10.1038/?srep40951.
DOI URL PMID |
[25] |
Li Y, Niu S, Yu G ( 2016). Aggravated phosphorus limitation on biomass production under increasing nitrogen loading: A meta-analysis. Global Change Biology, 22, 934-943.
DOI URL PMID |
[26] |
Liu L, Greaver TL ( 2010). A global perspective on belowground carbon dynamics under nitrogen enrichment. Ecology Letters, 13, 819-828.
DOI URL |
[27] |
Liu QY, Jiang M, Wang GD, Lu XG, Wang M, Lou YJ, Yuan YX ( 2013). Effect of exogenous phosphorus inputs on seed germination of soil seed bank in marshes in Xingkai lake. Wetland Science, 11, 41-47.
DOI URL |
[ 刘庆艳, 姜明, 王国栋, 吕宪国, 王铭, 娄彦景, 袁宇翔 ( 2013). 外源磷输入对兴凯湖沼泽土壤种子库种子萌发的影响. 湿地科学, 11, 41-47.]
DOI URL |
|
[28] |
Liu X, Zhang Y, Han W, Tang A, Shen J, Cui Z, Vitousek P, Erisman JW, Goulding K, Christie P, Fangmeier A ( 2013). Enhanced nitrogen deposition over China. Nature, 494, 459-462.
DOI URL PMID |
[29] |
Liu Y, Gao P, Zhang L, Niu X, Wang B ( 2016). Spatial heterogeneity distribution of soil total nitrogen and total phosphorus in the Yaoxiang watershed in a hilly area of northern China based on geographic information system and geostatistics. Ecology and Evolution, 6, 6807-6816.
DOI URL PMID |
[30] |
Liu ZM, Li RP, Li XH, Luo YM, Wang HM, Jiang DM, Nan YH ( 2004a ). A comparative study of seed weight of 69 plant species in Horqin Sandyland, China. Acta Phytoecologica Sinica, 28, 225-230.
DOI URL |
[ 刘志民, 李荣平, 李雪华, 骆永明, 王红梅, 蒋德明, 南寅镐 ( 2004a ). 科尔沁沙地69种植物种子重量比较研究. 植物生态学报, 28, 225-230.]
DOI URL |
|
[31] |
Liu ZM, Li XH, Li RP, Jiang DM, Cao CY, Chen XL ( 2004b ). A comparative of seed germination for 31 annual species of the Horqin steppe. Acta Ecologica Sinica, 24, 648-653.
DOI URL |
[ 刘志民, 李雪华, 李荣平, 蒋德明, 曹成有, 常学礼 ( 2004b ). 科尔沁沙地31种1年生植物萌发特性比较研究. 生态学报, 24, 648-653.]
DOI URL |
|
[32] |
Lu M, Yang Y, Luo Y, Fang C, Zhou X, Chen J, Yang X, Li B ( 2011). Responses of ecosystem nitrogen cycle to nitrogen addition: A meta-analysis. New Phytologist, 189, 1040-1050.
DOI URL PMID |
[33] |
Luo X, Mazer SJ, Guo H, Zhang N, Weiner J, Hu S ( 2016). Nitrogen: phosphorous supply ratio and allometry in five alpine plant species. Ecology and Evolution, 6, 8881-8892.
DOI URL PMID |
[34] |
Ma QF, Longnecker N, Atkins C ( 2002). Varying phosphorus supply and development, growth and seed yield in narrow-leafed lupin. Plant and Soil, 239, 79-85.
DOI URL |
[35] |
Manning P, Houston K, Evans T ( 2009). Shifts in seed size across experimental nitrogen enrichment and plant density gradients. Basic and Applied Ecology, 10, 300-308.
DOI URL |
[36] |
Milberg P, Lamont BB ( 1997). Seed/cotyledon size and nutrient content play a major role in early performance of species on nutrient-poor soils. New Phytologist, 137, 665-672.
DOI URL |
[37] |
Moles AT, Westoby M ( 2004). Seedling survival and seed size: A synthesis of the literature. Journal of Ecology, 92, 372-383.
DOI URL |
[38] |
Nadeem M, Mollier A, Morel C, Vives A, Prud’homme L, Pellerin S ( 2011). Relative contribution of seed phosphorus reserves and exogenous phosphorus uptake to maize ( Zea mays L.) nutrition during early growth stages. Plant and Soil, 346, 231-244.
DOI URL |
[39] |
Naegle ER, Burton JW, Carter TE, Rufty TW ( 2005). Influence of seed nitrogen content on seedling growth and recovery from nitrogen stress. Plant and Soil, 271, 329-340.
DOI URL |
[40] |
Navarro L, Guitian J ( 2003). Seed germination and seedling survival of two threatened endemic species of the northwest Iberian peninsula. Biological Conservation, 109, 313-320.
DOI URL |
[41] |
Pe?uelas J, Poulter B, Sardans J, Ciais P, van der Velde M, Bopp L, Boucher O, Godderis Y, Hinsinger P, Llusia J, Nardin E ( 2013). Human-induced nitrogen-phosphorus imbalances alter natural and managed ecosystems across the globe. Nature Communications, 4, 2934. DOI: 10.1038/?ncomms3934.
DOI URL PMID |
[42] |
Schmid B, Dolt C ( 1994). Effects of maternal and paternal environment and genotype on offspring phenotype in Solidago altissima L. Evolution, 48, 1525-1549.
DOI URL PMID |
[43] |
Stevens CJ, Dise NB, Mountford JO, Gowing DJ ( 2004). Impact of nitrogen deposition on the species richness of grasslands. Science, 303, 1876-1879.
DOI URL PMID |
[44] | Sultan SE ( 1996). Phenotypic plasticity for offspring traits in Polygonum persicaria. Ecology, 77, 1791-1807. |
[45] | Sun ZG, Song HL, Hu XY ( 2017). Response of germination and seedling growth of Suaeda salsa seeds from tidal marshes in the Yellow River estuary to N/P ratio of soil. Wetland Science, 15, 10-19. |
[ 孙志高, 宋红丽, 胡星云 ( 2017). 黄河口潮滩碱蓬种子萌发与幼苗生长对土壤中氮磷比的响应. 湿地科学, 15, 10-19.] | |
[46] |
Tripathi RS, Khan ML ( 1990). Effects of seed weight and microsite characteristics on germination and seedling fitness in 2 species of Quercus in a subtropical wet hill forest. Oikos, 57, 289-296.
DOI URL |
[47] |
Tungate KD, Burton MG, Susko DJ, Sermons SM, Rufty TW ( 2006). Altered weed reproduction and maternal effects under low-nitrogen fertility. Weed Science, 54, 847-853.
DOI URL |
[48] |
Verdu M, Traveset A ( 2005). Early emergence enhances plant fitness: A phylogenetically controlled meta-analysis. Ecology, 86, 1385-1394.
DOI URL |
[49] |
Vergeer P, Rengelink R, Ouborg NJ, Roelofs JGM ( 2003). Effects of population size and genetic variation on the response of Succisa pratensis to eutrophication and acidification. Journal of Ecology, 91, 600-609.
DOI URL |
[50] |
Violle C, Castro H, Richarte J, Navas ML ( 2009). Intraspecific seed trait variations and competition: Passive or adaptive response? Functional Ecology, 23, 612-620.
DOI URL |
[51] |
Violle C, Navas ML, Vile D, Kazakou E, Fortunel C, Hummel I, Garnier E ( 2007). Let the concept of trait be functional! Oikos, 116, 882-892.
DOI URL |
[52] |
Walck JL, Hidayati SN, Dixon KW, Thompson K, Poschlod P ( 2011). Climate change and plant regeneration from seed. Global Change Biology, 17, 2145-2161.
DOI URL |
[53] |
Walters MB, Reich PB ( 2000). Seed size, nitrogen supply, and growth rate affect tree seedling survival in deep shade. Ecology, 81, 1887-1901.
DOI URL |
[54] |
Wulff RD, Causin HF, Benitez O, Bacalini PA ( 1999). Intraspecific variability and maternal effects in the response to nutrient addition in Chenopodium album. Canadian Journal of Botany, 77, 1150-1158.
DOI URL |
[55] |
Zhang H, Chang R, Guo X, Liang X, Wang R, Liu J ( 2017). Shifts in growth and competitive dominance of the invasive plant Alternanthera philoxeroides under different nitrogen and phosphorus supply. Environmental and Experimental Botany, 135, 118-125.
DOI URL |
[56] |
Zhang M, Nyborg M, Mcgill WB ( 1990). Phosphorus concentration in barley ( Hordeum vulgare L.) seed: Influence on seedling growth and dry-matter production. Plant and Soil, 122, 79-83.
DOI URL |
[57] |
Zhu YG, Smith SE ( 2001). Seed phosphorus (P) content affects growth, and P uptake of wheat plants and their association with arbuscular mycorrhizal (AM) fungi. Plant and Soil, 231, 105-112.
DOI URL |
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