Your search keyword '"Ma, Xufa"' showing total 3 results

1. The efficacy of DNA barcoding in the classification, genetic differentiation, and biodiversity assessment of benthic macroinvertebrates.

Author

Ge, Yihao, Xia, Chengxing, Wang, Jun, Zhang, Xiujie, Ma, Xufa, and Zhou, Qiong

Subjects

GENETIC barcoding, DNA data banks, INVERTEBRATES, AQUATIC insects, AQUATIC invertebrates, ODONATA, INSECT diversity, BIOINDICATORS

Abstract

Macroinvertebrates have been recognized as key ecological indicators of aquatic environment and are the most commonly used approaches for water quality assessment. However, species identification of macroinvertebrates (especially of aquatic insects) proves to be very difficult due to the lack of taxonomic expertise in some regions and can become time‐consuming. In this study, we evaluated the feasibility of DNA barcoding for the classification of benthic macroinvertebrates and investigated the genetic differentiation in seven orders (Insecta: Ephemeroptera, Plecoptera, Trichoptera, Diptera, Hemiptera, Coleoptera, and Odonata) from four large transboundary rivers of northwest China and further explored its potential application to biodiversity assessment. A total of 1,144 COI sequences, belonging to 176 species, 112 genera, and 53 families were obtained and analyzed. The barcoding gap analysis showed that COI gene fragment yielded significant intra‐ and interspecific divergences and obvious barcoding gaps. NJ phylogenetic trees showed that all species group into monophyletic species clusters whether from the same population or not, except two species (Polypedilum. laetum and Polypedilum. bullum). The distance‐based (ABGD) and tree‐based (PTP and MPTP) methods were utilized for grouping specimens into Operational Taxonomic Units (OTUs) and delimiting species. The ABGD, PTP, and MPTP analysis were divided into 177 (p =.0599), 197, and 195 OTUs, respectively. The BIN analysis generated 186 different BINs. Overall, our study showed that DNA barcoding offers an effective framework for macroinvertebrate species identification and sheds new light on the biodiversity assessment of local macroinvertebrates. Also, the construction of DNA barcode reference library of benthic macroinvertebrates in Eurasian transboundary rivers provides a solid backup for bioassessment studies of freshwater habitats using modern high‐throughput technologies in the near future. [ABSTRACT FROM AUTHOR]

Published

2021

2. Reproductive biology of bream Abramis brama (L.) in the lower reaches of the Irtysh River, China.

Author

Zhang, Zhiming, Liu, Chengjie, Ding, Huiping, Xie, Peng, Ma, Xufa, Guo, Yan, and Xie, Congxin

Subjects

ROACH (Fish), SPAWNING, FISH reproduction, RIVERS, FISH genetics

Abstract

The reproductive biology of bream Abramis brama (L.) was studied from 546 fish collected from the lower reaches of the Irtysh River in Xinjiang, north-west China, from March to November 2013. The overall sex ratio (M/F) was 1.06:1, and was not significantly different from the theoretical 1:1 ratio ( P>0.5). However, there was a dominance of males during the pre-spawning season (1.33 in March and 1.56 in April, P<0.5), while females were dominant during the peak spawning season (0.88 in June, P<0.5). The monthly variation in gonadosomatic index (GSI) and proportion of gonads at each macroscopic maturity stage, indicated that A. brama spawned once a year with peak spawning occurring from late May to June. The unimodal distribution of oocyte diameter each month indicated that A. brama is a single spawner, with a high degree of spawning synchronicity. The standard lengths (SL) and ages ( A ) at first maturity for males and females, were 178 and 204 mm, and 5.6 and 6.8 years, respectively. The mean absolute fecundity (AF) was 77 311 eggs per fish, and mean relative fecundity (RF) was 162 eggs per gram of body weight (BW). The AF of A. brama increased linearly with increasing of gonad weight (GW), eviscerated weight (EW) and standard length (SL), but was not significantly correlated with age. As, A. brama in the lower reaches of the Irtysh River reaches reproductive maturity relatively late in their life span, is mature for a short period and spawns in aggregations, this fish is vulnerable to overexploitation. [ABSTRACT FROM AUTHOR]

Published

2017

3. Thermocline stratification favors phytoplankton spatial overlap and species diversity in a subtropical deep reservoir.

Author

Wang L, Liu J, Bao Z, Ma X, Shen H, Xie P, and Chen J

Subjects

Seasons, Chlorophyll, Ecology, Lakes chemistry, China, Phytoplankton, Diatoms

Abstract

Spatial segregation of species along opposing resource gradients is a major research topic in ecology as it enables the coexistence and maintenance of high diversity. Thermocline stratification causes heterogeneous resource distribution, however, the effect of thermocline stratification on phytoplankton dynamic in-depth profiles is still unclear. To understand the underlying mechanism behind the effects of thermocline stratification on phytoplankton species diversity in stratified lakes, the monthly changes in thermocline parameters, deep chlorophyll maxima (DCM) parameters, spatial overlap (SO) among major phytoplankton taxonomic groups, and phytoplankton species diversity were evaluated in Lake Qiandaohu in the Zhejiang Province of China from April 2017 to December 2018. Thermocline depth (TD) was significantly negatively related to thermocline strength (TS). The monthly air temperature was the main driver behind the thermocline and the seasonal thermal-stratification cycle was divided into two stratification stages. Significant linear relationships were observed between the DCM parameters (depth, concentration, and thickness) and TD during the strong stratification period. TD was significantly positively related to phytoplankton species diversity and the SO between Cryptophyta and Chlorophyta as well as between Cryptophyta and Bacillariophyta during weak stratification periods. Significant positive correlations were observed between SO and Shannon diversity during both periods. Structural equation modeling (SEM) showed that air temperature significantly decreased TD and increased species diversity by increasing SO during the strong stratification period. Strong stratification under warming favored the formation of shallower and thinner DCMs, leading to phytoplankton coexistence and maintenance of high species diversity through a preclusion of dominance. This study characterized the temporal dynamics of phytoplankton dynamic in-depth profiles in response to strong stratification from warming., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier B.V.)

Published

2024