Clustering evaluation of water quality for various classes of in-flow rivers in connected brackish lakes.

Brackish waters and estuaries at the lower reaches of rivers accumulate organic matter and nutrients from various sources in the watershed. Sufficient light and shallow water depth stimulate phytoplankton growth, resulting in a more diversified ecosystem with higher trophic levels. For effective watershed management, it is crucial to characterize the water quality of all rivers, including small and medium-sized ones. Our field survey assessed water quality parameters in 26 inflow rivers surrounding Lakes Shinji and Nakaumi, two consolidated brackish lakes in Japan. The parameters included water temperature, salinity, chlorophyll-a, and nutrients. The study used hierarchical clustering. The Silhouette Index was used to assess clustering outcomes and identify any difficulties in dispersion across clusters. The 26 rivers surrounding Lakes Shinji and Nakaumi were classified into six groups based on their water quality characteristics. This classification distinguishes itself from earlier subjective methods that relied on geographical factors. The new approach identifies a need for improved management of river water quality. The results of the cluster analysis provide valuable insights for future management initiatives. It is important to consider these findings alongside established watershed criteria.

A novel symbiotic relationship between ascidians and a new tunic-boring polychaete (Annelida: Spionidae: Polydora).

Polydora tunicola Abe, Hoshino Yamada, sp. nov., a new spionid species currently considered an obligate symbiont of styelid ascidians, is described based on materials collected from Polycarpa cf. cryptocarpa kroboja (Oka, 1906) and Cnemidocarpa sp. in Izu-Oshima Island and Polycarpa sp. in Wakayama Prefecture, Japan. Polychaeteascidian symbiotic relationships are known only in two syllid species: Myrianida pinnigera (Montagu, 1808) and Proceraea exoryxae Martin, Nygren Cruz-Rivera, 2017. The latter has been the only polychaete known to bore into the tunic of an ascidian. Polydora tunicola sp. nov. is the second known example of a tunic-boring polychaete, which constructs U-shaped burrows in the tunic of the host ascidians. Worms were often concentrated near the host siphons and assumed to use water currents created by the filter-feeding host for suspension feeding. Although the boring mechanism into ascidian tunica is unknown, the plate assay and zymography results consistently detected cellulase activities, suggesting that cellulose digestion may enable the worms to bore into the cellulose-rich ascidian tunics. Polydora tunicola sp. nov. is morphologically similar to P. aura Sato-Okoshi, 1998, P. cornuta Bosc, 1802, P. fusca Radashevsky Hsieh, 2000, P. glycymerica Radashevsky, 1993, P. latispinosa Blake Kudenov, 1978, P. lingulicola Abe Sato-Okoshi, 2020, P. nanomon Orensky Williams, 2009, P. robi Williams, 2000, and P. vulgaris Mohammad, 1972 in having a single median antenna on the caruncle and chaetiger 5 without dorsal superior capillaries but with ventral capillaries. The new species is unique in having a black-rimmed pygidium, distinguishing it from these species. The phylogenetic analyses of the concatenated 18S, 28S, and 16S sequences recovered P. tunicola sp. nov. as the sister species to P. aura within a well-supported clade also including P. lingulicola and P. cf. glycymerica. The bright yellow body color of P. tunicola sp. nov. in life is similar to that of P. aura, however, these two species are distinguished by the former not having modified posterior notochaetae. The symbiotic nature of the association between P. tunicola sp. nov. and styelid ascidians is discussed.