BIODIVERSITY AND CONSERVATION IN CHINA: A VIEW FROM ENTOMOLOGSTS

Abstract China is among the twelve megadiversity countries in the world and one of the two countries with the highest biodiversity and endemism in Asia and South-Pacific region. China has the highest mountain system of the world and different types of environments inhabited by living organisms, ranging from the Palaearctic to Oriental Realms. These characteristics account for the magnificent species diversity and high level of endemism. Insects of 45 000 species have been recorded in China by now. The total endemic elements are obviously much more than the neighbouring countries. Especially in the south-west mountainous region and tropical areas the endemic elements occupy high proportions. The human disturbances, original habitat losses due to reclamation, deforestation, pollution, etc., are driving undetermined number of species to be endangered or extinct. Recommendations of China's insect conservation are hereon presented: identifying conservation priorities, investigating the biology and ecology of endangered species, monitoring habitat and diversity losses, compiling the "Red List" and the database of rare and endangered species, establishing reserves for insect conservation, and developing techniques of insect farming and ranching.     

鼎突多刺蚁(Polyrhachis vicina Roger)蚁群的采收与恢复效应

通过对鼎突多刺蚁（Polyrhachis vicina Roger)野生资源的不同采收技术试验,研究采收季节,采收方式、采收强度和人为增加食物源的措施对蚁群恢复程度的影响,结果表明,夏季为最佳采收季节;以采收副巢为主,适当保留主巢有利于蚁群的恢复;在采收中以野生蚁群的25%-35%采收强度采集为宜;人为地在蚂蚁资源较为丰富的山地种植一些能产蜜露昆虫的经济作物,既为蚁群的快速恢复提供了食物保证,也增加额外的经济收入。     

The formation and degradation of cyanobacterium Aphanizomenon flos-aquae blooms: the importance of pH, water temperature, and day length

Investigation of annual changes in phytoplankton community structure in a small artificial eutrophic pond was carried out from May 2002 to April 2003. A heavy bloom of Aphanizomenon flos-aquae var. klebahnii Elenk. (Cyanobacteria) persisted in most of the water column from June to the end of October. In November, the A. flos-aquae bloom suddenly crashed and green algae were predominant until the end of spring. Weekly monitoring suggested strong involvement of the changes in abiotic factors in the cyanobacterial bloom degradation. To clarify the effects of pH, water temperature, and day length on the growth of A. flos-aquae, laboratory batch experiments were conducted. The results showed that A. flos-aquae could not grow below pH 7.1 and 11°C, and the growth tended to be suppressed under a 10L:14D photoperiod. pH, water temperature, and day length are vital factors in the growth of A. flos-aquae and, additionally, grazing by cyclopoid copepods also seemed important in bloom collapse.     

Leaf litter inhabiting beetles as surrogates for establishing priorities for conservation of selected tropical montane cloud forests in Honduras, Central America (Coleoptera; Staphylinidae, Curculionidae)

Thirteen tropical montane cloud forests (TMCFs) in Honduras and adjacent El Salvador were evaluated for species diversity and endemism in leaf litter inhabiting Curculionidae (weevils) and Staphylinidae in June and August of 1994. Totals of 26,891 specimens representing 293 species of Curculionidae, and 7349 specimens representing 224 species of Staphylinidae, were collected. Regional endemism was high with 173 species (58.7% of total) of Curculionidae and 126 species (56.3% of total) of Staphylinidae, restricted to single sites. Measures of diversity (number of observed species [Sobs]; number of endemic species) and estimates of biodiversity (Chao 2, first and second order Jackknife and Bootstrap richness estimators) are given for each site for Curculionidae and Staphylinidae. Priority-areas analyses based on Sobs (Greedy), Sobs, Chao 2, number of endemic species, site complementarity and higher taxonomic diversity (Curculionidae only) are presented. Weak or lack of correlation was noted between site area and site diversity for either Curculionidae or Staphylinidae. The optimum sequence for site conservation was determined based on Sobs (Greedy). Four sites are identified as the highest conservation priorities; Parque Nacional Montecristo, P.N. La Muralla, P.N. Santa Barbara and P.N. Comayagua. Identification as high priority sites supports their designation as Parques Nacionales rather than the less diverse Reservas Biologias or Reservas Vidas Silvestres. While closely approximating performance of Sobs (Greedy), no one of Sobs, number of endemics, Chao 2 or site complementarity give results equivalent to the optimum sequence based on Sobs (Greedy) and the latter is concluded to be the best method for establishing conservation priorities in TMCF. Results of the analyses based on one of Curculionidae or Staphylinidae differ in the ordering of site priorities based on each of Sobs, Chao 2 or number of endemics at each site, with at best, weak positive correlations between results based on each taxon. Data from other taxa are necessary to determine if one of Curculionidae or Staphylinidae emerges as the better surrogate for general patterns of biodiversity in TMCF. Conservation strategies in Central America should emphasize the importance of TMCF particularly in view of high regional endemism. In formulating these strategies, consideration needs to be given to the preservation of many small regional preserves rather than fewer larger preserves. Data from inventories of other taxa should be included where available and all biological data should be integrated with social and cultural issues of regional importance.     

Involvement of nitric oxide in water stress-induced responses of cucumber roots

The effect of water deficit on nitric oxide (NO) generation was investigated in cucumber (Cucumis sativus cv. Dar) seedling roots using bio-imaging with an NO-selective fluorophor, diaminofluorescein-2-diacetate (DAF-2DA). Roots subjected to mild (5 and 10 h) water deficit showed slightly enhanced NO synthesis in cells of root tips and in the surrounding elongation zone. However, severe (17 h) stress resulted in an intensive NO production localized mainly in and above the elongation zone. Water stress-induced NO generation was blocked by a specific NO scavenger, 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (cPTIO) as well as nitrate reductase (NR) and partially by nitric oxide synthase (NOS-like) inhibitors.A pharmacological approach was used in order to verify the capacity of NO to induce adaptive responses of cucumber roots to water deficit. A positive correlation was found between NO donor (SNP 100 μM and GSNO 100 μM) pretreatment and plant hydration status, measured as relative water content (RWC) during progressive dehydration. At an early stage (5 h) of stress duration NO caused a periodical increase in lipoxygenase (LOX) activity, correlated with time-dependent enhancement of lipid peroxidation. Beginning from 10 h up to severe stress (17 h) exogenous NO was able to diminish LOX activity and alleviate water deficit-induced membrane permeability and lipid peroxidation, measured as TBARS content and visualised by histochemical staining in situ. Observed changes via NO were accompanied by a significant reduction of proline level, suggesting that the accumulation of this osmolyte might not be essential in water stress tolerance. Obtained results clearly indicate that NO augmentation is likely to help the plant at the initial stage of tissue dehydration to trigger efficient mechanisms, mitigating severe water deficit effects in roots of cucumber seedlings.     

Regional and temporal variation in diet and provisioning rates suggest weather limits prey availability for an endangered raptor

Understanding variation in food requirements of wild animals is of central importance in population ecology and conservation, as it helps to identify where and when food may be limiting. Studies on diet variation or prey provisioning rates may give useful insights when direct information on prey availability is lacking. We assess spatial and temporal variation in the diet of an endangered predator, the Black Harrier Circus maurus. This raptor is endemic to southern Africa and specializes on small mammals but also feeds on birds and reptiles as alternative prey. Using data on 1679 prey identified in 953 pellets collected in inland and coastal regions from 2006 to 2015, we show that diet composition changed little throughout the breeding season in the coastal region, whereas there was a marked seasonal decline in the occurrence of small mammal prey in the inland region, with a concomitant increase in alternative prey. The proportion of small mammals in the diet declined with increasing maximum temperature, the latter being highest at the inland region late in the breeding season. Using camera recordings at nests in 2014, we further analysed daily patterns of prey provisioning to nestlings. A marked reduction in small mammal provisioning rates occurred during the middle of the day in the hotter inland region but not in the cooler coastal region. Reduced availability of the primary prey, small mammals, in hotter conditions, through a reduction in activity or overall abundance, could explain these patterns. Finally, we show a positive relationship between winter rainfall and interannual differences in the proportion of small mammals in the diet of Black Harriers breeding in the coastal region, suggesting relationships between diet and prey abundance that are mediated through rainfall. We discuss the need to consider spatial variation in food availability in conservation strategies.     

Contemporary pollen-mediated gene immigration reflects the historical isolation of a rare,animal-pollinated shrub in a fragmented landscape

Fragmentation is generally considered to have negative impacts on widespread outbreedersbut impacts on gene flow and diversity in patchy, naturally rare, self-compatible plantspecies remain unclear. We investigated diversity, gene flow and contemporarypollen-mediated gene immigration in the rare, narrowly distributed endemic shrubCalothamnus quadrifidus ssp. teretifolius. This taxon occurs in aninternationally recognized biodiversity hotspot subjected to recent human-inducedfragmentation and the condition of the remnants ranges from intact to highly degraded.Using microsatellites, we found that inbreeding, historically low gene flow andsignificant population differentiation have characterized the genetic system of C.quadrifidus ssp. teretifolius. Inbreeding arises from self-pollination, asmall amount of biparental inbreeding and significant correlation of outcross paternitybut fecundity was high suggesting populations might have purged their lethals. Paternityanalyses show that pollinators can move pollen over degraded and intact habitat butpopulations in both intact and degraded remnants had few pollen parents per seed parentand low pollen immigration. Genetic diversity did not differ significantly between intactand degraded remnants but there were signs of genetic bottlenecks and reduced diversity insome degraded remnants. Overall, our study suggests human-induced fragmentation has notsignificantly changed the mating system, or pollen immigration to, remnant populations andtherefore genetic connectivity need not be the highest conservation priority. Rather, forrare species adapted to higher levels of inbreeding, conservation efforts may be bestdirected to managing intact habitats and ecosystem processes.     

Putting the plants back into plant ecology: six pragmatic models for understanding and conserving plant diversity

BACKGROUND: There is a compelling need to protect natural plant communities and restore them in degraded landscapes. Activities must be guided by sound scientific principles, practical conservation tools, and clear priorities. With perhaps one-third of the world's flora facing extinction, scientists and conservation managers will need to work rapidly and collaboratively, recognizing each other's strengths and limitations. As a guide to assist managers in maintaining plant diversity, six pragmatic models are introduced that are already available. Although theoretical models continue to receive far more space and headlines in scientific journals, more managers need to understand that pragmatic, rather than theoretical, models have the most promise for yielding results that can be applied immediately to plant communities. SIX PRAGMATIC MODELS: For each model, key citations and an array of examples are provided, with particular emphasis on wetlands, since "wet and wild" was my assigned theme for the Botanical Society of America in 2003. My own work may seem rather prominent, but the application and refinement of these models has been a theme for me and my many students over decades. The following models are reviewed: (1) species-area: larger areas usually contain more species; (2) species-biomass: plant diversity is maximized at intermediate levels of biomass; (3) centrifugal organization: multiple intersecting environmental gradients maintain regional landscape biodiversity; (4) species-frequency: a few species are frequent while most are infrequent; (5) competitive hierarchies: in the absence of constraints, large canopy-forming species dominate patches of landscape, reducing biological diversity; and (6) intermediate disturbance: perturbations such as water level fluctuations, fire and grazing are essential for maintaining plant diversity. CONCLUSIONS: The good news is that managers faced with protecting or restoring landscapes already have this arsenal of tools at their disposal. The bad news is that far too few of these models are appreciated.     

Interannual patterns of avian diseases in wild New Zealand avifauna near conservation areas

The past few years have seen a noticeable increase in the emergence of infectious diseases in wildlife, especially vector-borne diseases, presenting a challenge for the conservation of endangered species. One such vector-borne disease, avian malaria (Plasmodium spp.) is on the rise in New Zealand avifauna, threatening bird populations that are among the most extinction-prone in the world. Furthermore, recent reports have outlined an increase in deaths of native iconic bird species specifically due to this disease. In order to help manage breakouts of this pathogen at a local scale, we need a better understanding of potential drivers of the emergence of avian malaria in wild New Zealand avifauna. Here, we set to test the role of climatic drivers in synchronizing contacts between avian hosts and vectors, assess the temporal stability of transmission dynamics between years, and determine the role of introduced species in causing spill-over of this pathogen towards native species. Our study focused on three sites that were sampled regularly during two consecutive years in the austral summer, each site being adjacent to a breeding colony of Yellow-eyed penguins (Megadyptes antipodes). Our results reveal an overall temporal stability of avian malaria incidence patterns, with a decrease in infection throughout the austral summer for both sampled years. Moreover, we highlight a phylogenetic signal among sampled bird species, with introduced species being more heavily infected by avian malaria than their native counterparts. In contrast, we found no effect of the two climatic drivers investigated, temperature and rainfall, on mosquito abundance. Our results suggest a strong effect of alien species acting as reservoirs for diseases spilling-over towards immunologically naïve species, and provide conservation managers with a critical timeframe to control avian malaria breakouts.