Abstract
The estuarine delta of the Yellow River is a region of strong land-ocean-human interactions that undergoes a unique evolutionary process. The delta is formed by deposition of large quantities of sediments carried by the Yellow River, especially during the annual water and sediment regulation period; more than one-third of the total annual sediments is deposited to the estuary area. The seagrass Zostera japonica is located at the forefront of the Yellow River delta. To study the impact of the different sediment environments on the Z. japonica growth, its growth and water quality and sediment parameters were measured on the northern and southern sides of the estuary from April to October in 2019. The action of wind and tides have re-suspended and dispersed sediments over time, producing shores on the southern delta characterized by nutrient-enriched clays and shores on the northern delta characterized by coarser sands and silts with poor nutrients. During the monitoring period, the concentrations of TC, TN, and TP in the root-zone sediments at the southern site were 1.56%, 0.04%, and 0.06%, respectively, whereas they were 0.69%, 0.007%, and 0.06%, respectively, at the northern site. Sufficient nutrients supported the growth of Z. japonica at the southern site, while poor nutrition limited the continuous growth of Z. japonica at the northern site. In July, the plant height, biomass, and shoot density of Z. japonica at the southern site reached the maximum values of 23.6 cm, 0.14 g/shoot, and 3245 shoots/m2, respectively, whereas they were 16.4 cm, 0.06 g/shoot, and 2740 shoots/m2, respectively, at the northern site. The sediment grain size and their nutrients contributed to different growth patterns of Z. japonica at the southern and northern sites. Our research could provide important implication for the conservation of Z. japonica habitats in the Yellow River estuary in China.
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The datasets pertaining to this research are available from the corresponding author on reasonable request.
References
APHA, AWWA, WEF (1995) Standard methods for the examination of water and wastewater, 19th edn. APHA/AWWA/WEF, Washington, DC
Boudouresque CF, Bernard G, Pergent G, Shili A, Verlaque M (2009) Regression of Mediterranean seagrasses caused by natural processes and anthropogenic disturbances and stress: a critical review. Bot Mar 52:395–418
Burgos E, Montefalcone M, Ferrari M, Paoli C, Vassallo P, Morri C, Bianchi CN (2017) Ecosystem functions and economic wealth: trajectories of change in seagrass meadows. J Clean Prod 168:1108–1119
Cardona L, Revelles M, Sales M, Aguilar A, Borrell A (2007) Meadows of the seagrass Posidonia oceanica are a significant source of organic matter for adjoining ecosystems. Mar Ecol Prog Ser 335:123–131
Choi SK, Kim S, Lee K-S, Li WT, Park SR (2016) The ecological importance of the dwarf seagrass Zostera japonica in intertidal areas on the southern coast of Korea. Ocean Sci J 51:1–12
Dennison W (2008) Environmental problem solving in coastal ecosystems: a paradigm shift to sustainability. Estuar Coast Shelf Sci 77(2):185–196
Erftemeijer PLA, Lewis RRR III (2006) Environmental impacts of dredging on seagrasses: a review. Mar Pollut Bull 52:1553–1572
Fabricius KE, Logan M, Weeks SJ, Lewis SE, Brodie J (2016) Changes in water clarity related to river discharges on the Great Barrier Reef continental shelf: 2002–2013. Estuar Coast Shelf Sci 173:A1–A5
Fourqurean JW, Manuel S, Coates KA, Kenworthy W, Smith SR (2010) Effects of excluding sea turtle herbivores from a seagrass bed: overgrazing may have led to loss of seagrass meadows in Bermuda. Mar Ecol Prog Ser 419:223–232
Govers LL, de Brouwer JHF, Suykerbuyk W, Bouma TJ, Lamers LPM, Smolders AJP, van Katwijk MM (2014) Toxic effects of increased sediment nutrient and organic matter loading on the seagrass Zostera noltii. Aquat Toxicol 155:253–260
Han Q, Soissons LM, Liu D, van Katwijk MM, Bouma TJ (2017) Individual and population indicators of Zostera japonica respond quickly to experimental addition of sediment-nutrient and organic matter. Mar Pollut Bull 114:201–209
Holmer M, Kristensen E (1996) Seasonality of sulfate reduction and pore water solutes in a marine fish farm sediment: the importance of temperature and sedimentary organic matter. Biogeochemistry 32:15–39
Hou C, Song J, Yan J, Wang K, Li C, Yi Y (2020) Growth indicator response of Zostera japonica under different salinity and turbidity stresses in the Yellow River Estuary, China. Mar Geol 424:106169
Hou C, Yi Y, Song J, Zhou Y (2021) Effect of water-sediment regulation operation on sediment grain size and nutrient content in the lower Yellow River. J Clean Prod 279:123533
Hu CH, Ji ZW, Wang T (1998) Dynamic characteristics of sea currents and sediment dispersion in the Yellow River estuary. Int J Sediment Res 13(2):20–30
Hua YY, Cui BS, He WJ (2016) Identifying potential restoration areas of freshwater wetlands in a river delta. Ecol Indic 71:438–448
Jiang K, Chen XY, Shi MM, Yu S (2020) Small clones dominate a population of the short-lived perennial seagrass Zostera japonica. Aquat Bot 164:103229
Kaldy JE (2006) Production ecology of the non-indigenous seagrass, dwarf eelgrass, Zostera japonica Ascher. & Graeb. in a Pacific Northwest estuary, USA. Hydrobiologia 553:201–217
Kaldy JE, Shafer DJ, Ailstock MS, Magoun AD (2015) Effects of temperature, salinity and seed age on induction of Zostera japonica germination in North America, USA. Aquat Bot 126:73–79
Kim SH, Kim JW, Kim YK, Park SR, Lee KS (2020) Factors controlling the vertical zonation of the intertidal seagrass, Zostera japonica in its native range in the northwestern Pacific. Mar Environ Res 157:104959
Li GX, Wei HL, Han YS, Cheng YJ (1998) Sedimentation in the Yellow River delta, part I: flow and suspended sediment structure in the upper distributary and the estuary. Mar Geol 149(1–4):93–111
Liu S, Li L, Zhang G, Liu Z, Yu Z, Ren J (2012) Impacts of human activities on nutrient transports in the Huanghe (Yellow River) estuary. J Hydrol 430:103–110
Liu M, Fan D, Bi N, Sun X, Tian Y (2019) Impact of water-sediment regulation on the transport of heavy metals from the Yellow River to the sea in 2015. Sci Total Environ 658:268–279
Liu Q, Yi Y, Hou C, Wu X, Song J (2020) Response of trophic structure and isotopic niches of the food web to flow regime in the Yellow River estuary. Mar Geol 430:106329
Lu J, Qiao FL, Wang XH, Wang YG, Teng Y, Xia CS (2011) A numerical study of transport dynamics and seasonal variability of the Yellow River sediment in the Bohai and Yellow seas. Estuar Coast Shelf Sci 95:39–51
Luy N, Gobert S, Sartoretto S, Biondo R, Bouquegneau J, Richir J (2012) Chemical contamination along the Mediterranean French coast using Posidonia oceanica (L.) delile above-ground tissues: a multiple trace element study. Ecol Indic 18:269–277
Mach ME, Wyllie-Echeverria S, Chan KMA (2014) Ecological effect of a nonnative seagrass spreading in the Northeast Pacific: a review of Zostera japonica. Ocean Coast Manag 102(Part A):375–382
Orth RJ, Carruthers TJB, Dennison WC, Duarte CM, Fourqurean JW et al (2006) A global crisis for seagrass ecosystems. Bioscience 56:987–996
Pasquaud S, Courrat A, Fonseca VF, Gamito R, Gonçalves IC, Lobry J et al (2013) Strength and time lag of relation-ships between human pressures and fish-based metrics used to assess ecological quality of estuarine systems. Estuar Coast Shelf Sci 134:119–127
Pérez M, Invers O, Ruiz JM, Frederiksen MS, Holmer M (2007) Physiological responses of the seagrass Posidonia oceanica to elevated organic matter content in sediments: an experimental assessment. J Exp Mar Biol Ecol 344:149–160
Posey MH (1988) Community changes associated with the spread of an introduced seagrass, Zostera japonica. Ecology 69:974–983
Qiao S, Shi X, Zhu A, Liu Y, Bi N, Fang X, Yang G (2010) Distribution and transport of suspended sediments off the Yellow River (Huanghe) mouth and the nearby Bohai Sea. Estuar Coast Shelf Sci 86:337–344
Roca G, Romero J, Columbu S, Farina S, Pagès FJ, Gera A et al (2014) Detecting the impacts of harbour construction on a seagrass habitat and its subsequent recovery. Ecol Indic 45:9–17
Ruesink JL, Feist BE, Harvey CJ, Hong JS, Trimble AC, Wisehart LM (2006) Changes in productivity associated with four introduced species: ecosystem transformation of a ‘pristine’ estuary. Mar Ecol Prog Ser 311:203–215
Seitzinger SP (1988) Denitrification in freshwater and coastal marine ecosystems: ecological and geochemical significance. Limnol Oceanogr 33(4):702–724
Shi MC, Zhao JP, Sun YY (1985) The analyses of hydrographical characteristic in estuary of Huanghe River. J Shandong College Oceanol 15(2):81–95 (In Chinese)
Short F, Carruthers T, Dennison W, Waycott M (2007) Global seagrass distribution and diversity: a bioregional model. J Exp Mar Biol Ecol 350:3–20
Short FT, Coles R, Fortes MD, Victor S, Salik M, Isnain I, Andrew J, Seno A (2014) Monitoring in the Western Pacific region shows evidence of seagrass decline in line with global trends. Mar Pollut Bull 83:408–416
Smith RD, Dennison WC, Alberte RS (1984) Role of seagrasses photosynthesis in root aerobic processes. Plant Physiol 74:1055–1058
Song J, Hou C, Liu Q, Wu X, Wang Y, Yi Y (2020) Spatial and temporal variations in the plankton community because of water and sediment regulation in the lower reaches of Yellow River. J Clean Prod 261:120972
Storlazzi CD, Norris BK, Rosenberger KJ (2015) The influence of grain size, grain color, and suspended-sediment concentration on light attenuation: why fine-grained terrestrial sediment is bad for coral reef ecosystems. Coral Reefs 34:967–975
Sui JJ, Yu ZG, Xu BC, Dong WH, Xia D, Jiang XY (2014) Concentrations and fluxes of dissolved uranium in the Yellow River estuary: seasonal variation and anthropogenic (water-sediment regulation scheme) impact. J Environ Radioact 128:38–46
Unsworth RKF, Cullen LC (2010) Recognizing the necessity for Indo-Pacific seagrass conservation. Conserv Lett 3:63–73
Unsworth RKF, van Keulen M, Coles RG (2014) Seagrass meadows in a globally changing environment. Mar Pollut Bull 83:383–386
Wang H, Yang Z, Bi N, Li H (2005) Rapid shifts of the river plume pathway off the Huanghe (Yellow) River mouth in response to water–sediment regulation scheme in 2005. Chin Sci Bull 50(24):2878–2884
Wang H, Bi N, Saito Y, Wang Y, Sun X, Zhang J, Yang Z (2010) Recent changes in sediment delivery by the Huanghe (Yellow River) to the sea: causes and environ-mental implications in its estuary. J Hydrol 391:302–313
Wang Y, Zhang MM, Zhang D, Shen ZY (2016) The influence of sediment particle size on the properties of adsorbed dissolved organic matter in the Yangtze estuary and its interactions with As/Sb. Mar Pollut Bull 105:351–358
Wang S, Fu B, Liang W, Liu Y, Wang Y (2017) Driving forces of changes in the water and sediment relationship in the Yellow River. Sci Total Environ 576:453–461
Wang S, Shen M, Ma Y, Chen G, You Y, Liu W (2019) Application of remote sensing to identify and monitor seasonal and interannual changes of water turbidity in Yellow River estuary, China. J Geophys Res Oceans 124:4904–4917
Williams SL (2007) Introduced species in seagrass ecosystems: status and concerns. J Exp Mar Biol Ecol 350:89–110
Xu B, Yang D, Burnett WC, Ran X, Yu Z, Gao M, Diao S, Jiang X (2016) Artificial water sediment regulation scheme influences morphology, hydrodynamics and nutrient behavior in the Yellow River estuary. J Hydrol 539:102–112
Xu X, Chen Z, Feng Z (2019) From natural driving to artificial intervention: changes of the Yellow River estuary and delta development. Ocean Coast Manag 174:63–70
Yanagi T, Takahashi S, Hoshika A, Tanimoto T (1996) Seasonal variation in the transport of suspended matter in the East China Sea. J Oceanogr 52:539–552
Yang Z, Ji Y, Bi N, Lei K, Wang H (2011) Sediment transport off the Huanghe (Yellow River) delta and in the adjacent Bohai Sea in winter and seasonal comparison. Estuar Coast Shelf Sci 93:173–181
Yi Q, Chen Q, Hu L, Shi W (2017) Tracking nitrogen sources, transformation, and transport at a basin scale with complex plain river networks. Environ Sci Technol 51:5396–5403
Yue S, Zhang Y, Zhou Y, Xu S, Xu S, Zhang X, Gu R (2019a) Optimal long-term seed storage conditions for the endangered seagrass Zostera japonica: implications for habitat conservation and restoration. Plant Methods 15:158
Yue S, Zhou Y, Zhang Y, Shaochun X, Gu R, Xu S, Zhang X, Zhao P (2019b) Effects of salinity and temperature on seed germination and seedling establishment in the endangered seagrass Zostera japonica Asch. & Graebn. in northern China. Mar Pollut Bull 146:848–856
Zhang LJ, Wang L, Cai WJ, Liu DM, Yu ZG (2013) Impact of human activities on organic carbon transport in the Yellow River. Biogeosciences 10:2513–2524
Zhang X, Zhou Y, Liu P, Wang F, Liu B, Liu X, Yang H (2015) Temporal pattern in biometrics and nutrient stoichiometry of the intertidal seagrass Zostera japonica and its adaptation to air exposure in a temperate marine lagoon (China): implications for restoration and management. Mar Pollut Bull 94(1–2):103–113
Zhou Y, Huang H, Nanson GC, Huang C, Liu G (2015) Progradation of the Yellow (Huanghe)River delta in response to the implementation of a basin-scale water regulation program. Geomorphology 243:65–74
Acknowledgement
We thank Steve O’Shea (PhD) from Edanz Group (www.edanzediting.com/ac) for editing a draft of this manuscript. This study was supported by the National Key R&D Program of China (2018YFC0407403), the National Natural Science Foundation of China (51722901, 41807398), the Key R&D Project of Shandong Province (2019GSF109011), Beijing Natural Science Foundation (JQ19034), and the Fundamental Research Funds for the Central Universities.
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This study was supported by the National Key R&D Program of China (2018YFC0407403), the National Natural Science Foundation of China (51722901, 41807398), the Key R&D Project of Shandong Province (2019GSF109011), Beijing Natural Science Foundation (JQ19034), and the Fundamental Research Funds for the Central Universities.
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Jin Zhang: Project administration, Conceptualization, Funding acquisition, Writing—review & editing. Kun Wang: Conceptualization, Data curation, Investigation, Methodology, Software, Writing – original draft, Writing—review & editing. Qitao Yi: Writing – review & editing. Yu Pei: Investigation. Chuanying Hou: Investigation. Yujun Yi: Project administration, Conceptualization, Funding acquisition, Writing—review & editing.
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Zhang, J., Wang, K., Yi, Q. et al. Growth of Zostera japonica in different sediment habitats of the Yellow River estuary in China. Environ Sci Pollut Res 28, 31151–31162 (2021). https://doi.org/10.1007/s11356-021-12925-7
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DOI: https://doi.org/10.1007/s11356-021-12925-7